[
{
"title": "Microstructure & physicochemical properties dataset of NaCl-based salt mixtures for concentrating solar power",
"doi": "10.1038/s41597-025-06437-z",
"url": "https://doi.org/10.1038/s41597-025-06437-z",
"journal": "Scientific Data",
"year": 2026,
"authors": "Feng, Y.; Wu, Y.; Wang, W.",
"abstract": "Abstract\n Concentrating solar power is a pivotal technology in global transition toward renewable energy, providing a viable pathway for dispatchable and base-load electricity generation. An important component of the concentrating solar power system is molten salts, particularly NaCl-based mixtures, which serve as both efficient heat transfer fluids and high-capacity thermal energy storage media. The influence mechanisms of micro-ionic interactions and microstructure on physico",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "SWFITEM: Solar Wind Fitting for Investigations of Thermodynamics and Energetics at Mars – A MAVEN dataset",
"doi": "10.1038/s41597-025-06530-3",
"url": "https://doi.org/10.1038/s41597-025-06530-3",
"journal": "Scientific Data",
"year": 2026,
"authors": "Ramstad, R.; Halekas, J.; Andersson, L.; Brain, D.; Espley, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Bounding the costs of electric vehicle managed charging—supply curves for scenarios from 2025 to 2050",
"doi": "10.1038/s41597-026-07008-6",
"url": "https://doi.org/10.1038/s41597-026-07008-6",
"journal": "Scientific Data",
"year": 2026,
"authors": "Matsuda-Dunn, R.; Hale, E.; Estreich, E.; Lavin, L.; Konar-Steenberg, G.",
"abstract": "Abstract\n As electric vehicle (EV) adoption increases, the resulting EV battery charging will increase demand on the electric power grid. Through EV managed charging (EVMC) programs, charging can be shifted in time to support electric grid reliability and reduce electricity costs. EVMC can offer an alternative to additional supply-side generation, but the costs of EVMC implementation must be understood to evaluate the cost-benefits of EVMC. This paper presents bottom-up, forward",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Multiclass Dataset for Intelligent Detection of Wind Turbine Blade Defects Using Drone Imagery",
"doi": "10.1038/s41597-026-06762-x",
"url": "https://doi.org/10.1038/s41597-026-06762-x",
"journal": "Scientific Data",
"year": 2026,
"authors": "Ji, L.; Cheng, J.; Wu, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Illumination-assisted annealing enables selenium solar cells with open-circuit voltage over 1 V and efficiency exceeding 10%",
"doi": "10.1038/s41560-025-01939-x",
"url": "https://doi.org/10.1038/s41560-025-01939-x",
"journal": "Nature Energy",
"year": 2026,
"authors": "Wen, X.; Li, Z.; Lu, W.; Li, J.; Xie, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Early market opportunity for long-duration energy storage",
"doi": "10.1038/s41560-026-01986-y",
"url": "https://doi.org/10.1038/s41560-026-01986-y",
"journal": "Nature Energy",
"year": 2026,
"authors": "Marqusee, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Suppressing intermediate crystallization for flexible tandem solar cells",
"doi": "10.1038/s41560-026-01979-x",
"url": "https://doi.org/10.1038/s41560-026-01979-x",
"journal": "Nature Energy",
"year": 2026,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Co-crystal engineering unlocks high-stability perovskite solar modules",
"doi": "10.1038/s41560-025-01904-8",
"url": "https://doi.org/10.1038/s41560-025-01904-8",
"journal": "Nature Energy",
"year": 2026,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Regulation of hydrothermal kinetics unlocks record efficiency in Sb2(S,Se)3 solar cells",
"doi": "10.1038/s41560-025-01956-w",
"url": "https://doi.org/10.1038/s41560-025-01956-w",
"journal": "Nature Energy",
"year": 2026,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Mapping Europe’s rooftop photovoltaic potential with a building-level database",
"doi": "10.1038/s41560-025-01947-x",
"url": "https://doi.org/10.1038/s41560-025-01947-x",
"journal": "Nature Energy",
"year": 2026,
"authors": "Kakoulaki, G.; Kenny, R.; Taylor, N.; Gracia-Amillo, A.; Szabo, S.",
"abstract": "Abstract\n \n Individual building-level approaches are needed to understand the full potential of rooftop photovoltaics (PV) at national and regional scale. Here we use the European Digital Building Stock Model R2025, an open-access building-level database, to assess rooftop solar potential for each of the 271 million buildings in the European Union. The results show that potential capacity could reach 2.3 TWp (1,822 GWp residential, 519 GWp non-residential), wi",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Author Correction: Mapping Europe’s rooftop photovoltaic potential with a building-level database",
"doi": "10.1038/s41560-026-01991-1",
"url": "https://doi.org/10.1038/s41560-026-01991-1",
"journal": "Nature Energy",
"year": 2026,
"authors": "Kakoulaki, G.; Kenny, R.; Taylor, N.; Gracia-Amillo, A.; Szabo, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Advancing wind energy through better understanding of the atmosphere",
"doi": "10.1038/s41560-025-01935-1",
"url": "https://doi.org/10.1038/s41560-025-01935-1",
"journal": "Nature Energy",
"year": 2026,
"authors": "Lundquist, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Heterogeneity in public attitudes and preferences for the deployment of aquifer thermal energy storage",
"doi": "10.1038/s41560-026-01977-z",
"url": "https://doi.org/10.1038/s41560-026-01977-z",
"journal": "Nature Energy",
"year": 2026,
"authors": "Liu, T.; Hanna, R.; Kountouris, Y.",
"abstract": "Abstract\n \n Aquifer thermal energy storage (ATES) can contribute to heating and cooling decarbonization by utilizing the thermal capacity of natural aquifers. Securing acceptance and support for deploying ATES at scale requires acknowledging public perceptions and designing systems compatible with public preferences. Here we characterize attitudinal stances and preferences for the deployment of ATES in public buildings in the UK. Using data from a social surve",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Author Correction: Heterogeneity in public attitudes and preferences for the deployment of aquifer thermal energy storage",
"doi": "10.1038/s41560-026-02034-5",
"url": "https://doi.org/10.1038/s41560-026-02034-5",
"journal": "Nature Energy",
"year": 2026,
"authors": "Liu, T.; Hanna, R.; Kountouris, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Sorption-driven dissolution refrigeration cycle with thermal storage",
"doi": "10.1038/s41560-026-01992-0",
"url": "https://doi.org/10.1038/s41560-026-01992-0",
"journal": "Nature Energy",
"year": 2026,
"authors": "Wu, S.; Tang, K.; Zhang, X.; Sang, H.; Du, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Toward traceable global systems for end-of-life photovoltaic waste",
"doi": "10.1038/s41467-026-69171-z",
"url": "https://doi.org/10.1038/s41467-026-69171-z",
"journal": "Nature Communications",
"year": 2026,
"authors": "Huang, B.; Long, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Probabilistic day-ahead forecasting of system-level renewable energy and electricity demand",
"doi": "10.1038/s41467-026-69015-w",
"url": "https://doi.org/10.1038/s41467-026-69015-w",
"journal": "Nature Communications",
"year": 2026,
"authors": "Terrén-Serrano, G.; Deshmukh, R.; Martínez-Ramón, M.",
"abstract": "Abstract\n Increasing shares of wind and solar generation, together with rising electricity demand, introduce growing uncertainty into power system operations. Accurate day-ahead forecasts of electricity demand and renewable generation are essential for system operators to coordinate electricity markets and maintain reliability at low cost. Here, we show that forecasting based on joint probability distributions of demand and renewable supply can substantially improve system-level",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Self-driven recycling of spent Li-ion battery materials with electricity generation",
"doi": "10.1038/s41467-026-69868-1",
"url": "https://doi.org/10.1038/s41467-026-69868-1",
"journal": "Nature Communications",
"year": 2026,
"authors": "Huang, S.; Huang, S.; Li, M.; Zhang, H.; Wang, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Reconstructing fine-scale 3D wind fields with terrain-informed machine learning",
"doi": "10.1038/s41467-026-70562-5",
"url": "https://doi.org/10.1038/s41467-026-70562-5",
"journal": "Nature Communications",
"year": 2026,
"authors": "Lin, C.; Tie, R.; Yi, S.; Liu, D.; Zhong, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Charting net-zero pathways for ASEAN's energy sector",
"doi": "10.1093/pnasnexus/pgaf389",
"url": "https://doi.org/10.1093/pnasnexus/pgaf389",
"journal": "npj Clean Energy",
"year": 2026,
"authors": "Zhong, S.; Su, B.; Papageorgiou, D.; Yeung, F.; Ng, T.",
"abstract": "Abstract\n The Association of Southeast Asian Nations (ASEAN) is at a turning point to drive an energy transition toward a low-carbon future. Investigating ASEAN's decarbonization strategies is timely. We present a capacity expansion model with hourly resolution for ASEAN to meet net-zero emissions by 2050, integrating electricity generation and hydrogen production. The results show two “bookend” pathways. ASEAN can decarbonize its power sector through an accelerated expansion in",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Simulation Tools",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Hourglass-shaped GaAs0.99Bi0.01 nanowire solar cells with CuI-PEDOT:PSS double hole transport layers for enhanced photovoltaic performance",
"doi": "10.1038/s41598-025-34717-6",
"url": "https://doi.org/10.1038/s41598-025-34717-6",
"journal": "Scientific Reports",
"year": 2026,
"authors": "Rautela, M.; Sagar, S.; Kumar, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A sport inspired kabaddi game optimizer for accurate parameter estimation of solar photovoltaic models",
"doi": "10.1038/s41598-025-32437-5",
"url": "https://doi.org/10.1038/s41598-025-32437-5",
"journal": "Scientific Reports",
"year": 2026,
"authors": "Ayyarao, T.; Kishore, G.; Dev, A.; Siddaraj, U.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Interaction effect of courtyard building form and orientation on energy performance of hospitals in warm humid climate",
"doi": "10.1038/s41598-026-40632-1",
"url": "https://doi.org/10.1038/s41598-026-40632-1",
"journal": "Scientific Reports",
"year": 2026,
"authors": "Harshalatha, .; Patil, S.",
"abstract": "Abstract\n The built environment plays a crucial role in optimizing energy consumption within hospital buildings. Enhancing its efficiency is vital for sustainable development. The form, shape and orientation of hospital buildings significantly impact their energy performance, leading to energy savings, improved indoor air quality, and enhanced thermal comfort. This research focuses on assessing the interactive effect of courtyard building forms and orientation on energy performa",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Optimal operation of multi-carrier energy systems integrated with renewable energy sources and hydrogen storage systems",
"doi": "10.1038/s41598-026-35497-3",
"url": "https://doi.org/10.1038/s41598-026-35497-3",
"journal": "Scientific Reports",
"year": 2026,
"authors": "Foroughian, S.; Bijan, Z.; Karimi, H.; Hasanzadeh, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "A multi strategy optimization framework using AI digital twins for smart grid carbon emission reduction",
"doi": "10.1038/s41598-026-38720-3",
"url": "https://doi.org/10.1038/s41598-026-38720-3",
"journal": "Scientific Reports",
"year": 2026,
"authors": "Sakthivel, S.; Arivukarasi, M.; Charulatha, G.; Nithisha, J.; Abirami, B.",
"abstract": "Abstract\n This research presents an AI-enabled digital twin framework to achieve carbon neutrality in smart grids through optimal management of heterogeneous energy storage systems. The proposed structure integrates battery, thermal, and hydrogen storage technologies with AI-driven forecasting models to address the challenge of renewable integration, while maintaining grid stability and economic viability. This paper presents a comparative analysis of three distinct optimization",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Optimized scheduling of integrated energy systems considering waste-to-power plants and advanced adiabatic air compression energy storage machines",
"doi": "10.1038/s41598-026-37485-z",
"url": "https://doi.org/10.1038/s41598-026-37485-z",
"journal": "Scientific Reports",
"year": 2026,
"authors": "Wang, W.; Liu, M.; Zhao, H.; Wu, Y.; Tian, Y.",
"abstract": "Abstract\n To achieve carbon peaking and carbon neutrality goals, improve energy utilization efficiency, and accelerate the decarbonization of energy structure, this paper proposes a model that integrates Waste Incineration Power Plant (WIP) and Advanced Adiabatic Compressed Air Energy Storage (AA-CAES) to reduce carbon emissions and enhance system economics. First, based on the coupled WIP and Power-to-Gas (P2G) model, a waste heat recovery unit is introduced to recover exhaust ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "A probabilistic framework for effective battery energy storage sizing in microgrids with demand response",
"doi": "10.1038/s41598-026-35145-w",
"url": "https://doi.org/10.1038/s41598-026-35145-w",
"journal": "Scientific Reports",
"year": 2026,
"authors": "Alamir, N.; Kamel, S.; Megahed, T.; Hori, M.; Abdelkader, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Demand Response",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "State-of-play of contending silicon photovoltaic technologies",
"doi": "10.1016/j.joule.2025.102240",
"url": "https://doi.org/10.1016/j.joule.2025.102240",
"journal": "Joule",
"year": 2026,
"authors": "Green, M.; Zhou, Z.; Song, N.; Qiu, K.; Xu, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Climate change will increase high-temperature risks, degradation, and costs of rooftop photovoltaics globally",
"doi": "10.1016/j.joule.2025.102218",
"url": "https://doi.org/10.1016/j.joule.2025.102218",
"journal": "Joule",
"year": 2026,
"authors": "Wu, H.; Kong, Q.; Huber, M.; Sun, M.; Craig, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Insight into rapid vegetation dynamics in China’s saltmarshes reveals overlooked coastal soil carbon storage",
"doi": "10.1016/j.oneear.2026.101613",
"url": "https://doi.org/10.1016/j.oneear.2026.101613",
"journal": "One Earth",
"year": 2026,
"authors": "Qi, G.; Wei, J.; Li, H.; Xie, T.; Li, L.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "The impact of enhanced geothermal systems on transitioning all energy sectors in 150 countries to 100% clean, renewable energy",
"doi": "10.1016/j.crsus.2025.100611",
"url": "https://doi.org/10.1016/j.crsus.2025.100611",
"journal": "Cell Reports Sustainability",
"year": 2026,
"authors": "Jacobson, M.; Sambor, D.; Fan, Y.; Mühlbauer, A.; DiBari, G.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Renewable-powered high-temperature compressed air energy storage to accelerate grid decarbonization",
"doi": "10.1016/j.crsus.2026.100639",
"url": "https://doi.org/10.1016/j.crsus.2026.100639",
"journal": "Cell Reports Sustainability",
"year": 2026,
"authors": "Yang, D.; Wang, J.; Tang, G.; He, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "A theoretical upper limit for offshore wind energy extraction",
"doi": "10.1016/j.crsus.2025.100573",
"url": "https://doi.org/10.1016/j.crsus.2025.100573",
"journal": "Cell Reports Sustainability",
"year": 2026,
"authors": "Simão Ferreira, C.; Larsen, G.; Sørensen, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Comparative evaluation of the material consumption and carbon footprint of silicon PV modules",
"doi": "10.1016/j.crsus.2025.100576",
"url": "https://doi.org/10.1016/j.crsus.2025.100576",
"journal": "Cell Reports Sustainability",
"year": 2026,
"authors": "Kim, M.; Chan, C.; Wang, S.; Wang, L.; Chang, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Mechanical-electrical conversion performance of electromagnetic-triboelectric hybrid generator for wind energy harvesting",
"doi": "10.1016/j.isci.2026.114728",
"url": "https://doi.org/10.1016/j.isci.2026.114728",
"journal": "iScience",
"year": 2026,
"authors": "Wang, Z.; Huang, C.; Cao, J.; Li, X.; Bian, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Toward sustainable outcomes for offshore wind and biodiversity in the digital era: Principles for collaborative digital ecosystem-based governance",
"doi": "10.1016/j.isci.2026.114881",
"url": "https://doi.org/10.1016/j.isci.2026.114881",
"journal": "iScience",
"year": 2026,
"authors": "Solman, H.; Mandeville, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Widespread increase in frequency and duration of European wind droughts based on CMIP6 projections",
"doi": "10.1016/j.isci.2026.115075",
"url": "https://doi.org/10.1016/j.isci.2026.115075",
"journal": "iScience",
"year": 2026,
"authors": "Mostue, I.; Valenzuela-Venegas, G.; Banos, D.; Storelvmo, T.; Zeyringer, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Multinary tellurates as energy storage materials",
"doi": "10.1016/j.isci.2026.114936",
"url": "https://doi.org/10.1016/j.isci.2026.114936",
"journal": "iScience",
"year": 2026,
"authors": "Masese, T.; Kanyolo, G.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Large terahertz photovoltaic effect enhanced by phonon excitations in ferroelectric semiconductor SbSI",
"doi": "10.1126/sciadv.adw9796",
"url": "https://doi.org/10.1126/sciadv.adw9796",
"journal": "Science Advances",
"year": 2026,
"authors": "Okamura, Y.; Guo, G.; Kaneko, Y.; Nakamura, M.; Sotome, M.",
"abstract": "Quantum geometry of Bloch electron in crystalline solids produces various exotic quantum phenomena. The shift current photovoltaic effect driven by the photo creation of quasiparticle is one such emerging example that enables the conversion from terahertz photon into dc charge current with absence of dissipative photocarrier. Despite wide-ranging potential applications, however, the fundamental nature of terahertz photovoltaic response has remained elusive. Here, we show the large photocurrent g",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Bulk and interface engineering of 1.7 eV–bandgap chalcogenide solar cells enabling record efficiency",
"doi": "10.1126/sciadv.aed4703",
"url": "https://doi.org/10.1126/sciadv.aed4703",
"journal": "Science Advances",
"year": 2026,
"authors": "Ishizuka, S.; Taguchi, N.",
"abstract": "\n Wide-bandgap chalcogenide photovoltaics offer strong potential for tandem solar cells and solar-driven hydrogen generation via water splitting, yet their performance remains limited by persistent interfacial and bulk defects. Here, we demonstrate enhanced efficiency in 1.7–electron volt CuGaSe\n 2\n thin-film solar cells through aluminum (Al) alloying and rubidium (Rb) incorporation. The Al- and Rb-modified CuGaSe\n 2\n ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Reassessing boreal wildfire drivers enables high-resolution mapping of emissions for climate adaptation",
"doi": "10.1126/sciadv.adw5226",
"url": "https://doi.org/10.1126/sciadv.adw5226",
"journal": "Science Advances",
"year": 2026,
"authors": "Eckdahl, J.; Nieradzik, L.; Rütting, L.",
"abstract": "The expansive carbon reservoirs of the boreal region are becoming some of the most rapidly growing sources of greenhouse gasses under a positive feedback between intensifying fire activity and climate change. However, current regional-scale methods lack the spatial precision needed to improve understanding of the drivers of these fluxes to inform strategies aimed at maximizing landscape carbon storage. Here, we develop an alternative and highly constrained procedure for estimating wildfire emiss",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Chang’E-6 reveals solar wind–dependent H\n −\n ions on the Moon",
"doi": "10.1126/sciadv.adw1162",
"url": "https://doi.org/10.1126/sciadv.adw1162",
"journal": "Science Advances",
"year": 2026,
"authors": "Zhong, T.; Xie, L.; Zhang, A.; Wieser, M.; Wang, W.",
"abstract": "\n Apart from positive ions and electrons, negative ions are expected in various astrophysical environments. However, they have never been detected on the Moon until the Chang’E-6 mission. The NILS instrument onboard Chang’E-6 lander is the first dedicated instrument for detecting negative ions beyond Earth and has successfully obtained H\n −\n spectra on the lunar surface, providing an unprecedented opportunity to investigate their origin an",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Boosting capacitive energy storage in relaxor ferroelectrics through polymorphic phase engineering",
"doi": "10.1126/sciadv.aeb7173",
"url": "https://doi.org/10.1126/sciadv.aeb7173",
"journal": "Science Advances",
"year": 2026,
"authors": "Zhang, Y.; Liang, H.; Liu, Y.; Li, D.; Dong, S.",
"abstract": "\n Relaxor ferroelectric materials are promising for next-generation capacitors due to their high energy storage capacity. Polymorphic phase engineering, where different ferroelectric phases coexist, has been widely demonstrated as an effective approach to further boost capacitive energy storage performance of relaxor ferroelectrics, but the reasons for these improvements and how they compare to single-phase systems remain unclear. Here, taking dendrite-like PbZr\n ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Rigid-flexible heptazine-biguanide frameworks enable fast electron delocalization and low-steric-hindrance ammonium-ion storage",
"doi": "10.1126/sciadv.aec9924",
"url": "https://doi.org/10.1126/sciadv.aec9924",
"journal": "Science Advances",
"year": 2026,
"authors": "Du, W.; Zhang, Y.; Duan, H.; Lv, Y.; Song, Z.",
"abstract": "\n Polymer anodes solve the solubility issue of small molecules while offering structure-function merits compared with inorganics for superior ammonium-ion batteries (AIBs), but current research focuses either on rigid polymers for rapid ion transport or flexible ones for high active-site utilization. Here, we design polymeric heptazine-biguanide frameworks (HBFs) via integrating planar three-electron meleme and rotated four-electron chlorhexidine linkers, which harness the adv",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "The ocean’s biological carbon pump under pressure",
"doi": "10.1126/sciadv.aef3182",
"url": "https://doi.org/10.1126/sciadv.aef3182",
"journal": "Science Advances",
"year": 2026,
"authors": "Middelburg, J.",
"abstract": "Increasing hydrostatic pressure induces the release of dissolved organic matter from rapidly settling marine particles and contributes to the depth attenuation of carbon fluxes.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Global dataset combining open-source hydropower plant and reservoir data",
"doi": "10.1038/s41597-025-04975-0",
"url": "https://doi.org/10.1038/s41597-025-04975-0",
"journal": "Scientific Data",
"year": 2025,
"authors": "Shah, J.; Hu, J.; Edelenbosch, O.; van Vliet, M.",
"abstract": "Abstract\n Hydropower is a crucial renewable source that depends heavily on water availability. Analyzing drought and climate change impacts on hydropower potential requires detailed data on both hydropower plant attributes (e.g. plant type and head) and reservoir characteristics (e.g. area, depth and volume). However, existing open-source datasets are poorly integrated: hydropower plant datasets often lack reservoir information, while reservoir datasets commonly miss hydropower plant in",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Global photovoltaic solar panel dataset from 2019 to 2022",
"doi": "10.1038/s41597-025-04985-y",
"url": "https://doi.org/10.1038/s41597-025-04985-y",
"journal": "Scientific Data",
"year": 2025,
"authors": "Li, A.; Liu, L.; Li, S.; Cui, X.; Chen, X.",
"abstract": "Abstract\n Solar photovoltaic (PV) power generation, known for its affordability and environmental benefits, is a key component of the global energy supply. However, the lack of comprehensive, timely, and precise global PV datasets has limited spatial analysis of PV potential. We developed a new method to identify PV panels globally, producing an annual 20-meter resolution dataset for 2019–2022. This dataset offers unprecedented detail and accuracy for future research and policy-making. ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "CPVPD-2024: A Chinese photovoltaic plant dataset derived via a topography-enhanced deep learning framework",
"doi": "10.1038/s41597-025-05891-z",
"url": "https://doi.org/10.1038/s41597-025-05891-z",
"journal": "Scientific Data",
"year": 2025,
"authors": "Yang, Y.; Lin, S.; Lu, R.; Liu, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar PV Generation and Consumption Dataset of an Estonian Residential Dwelling",
"doi": "10.1038/s41597-025-04747-w",
"url": "https://doi.org/10.1038/s41597-025-04747-w",
"journal": "Scientific Data",
"year": 2025,
"authors": "Hasan, S.; Blinov, A.; Chub, A.; Vinnikov, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "An improved spatially downscaled solar-induced chlorophyll fluorescence dataset from the TROPOMI product",
"doi": "10.1038/s41597-024-04325-6",
"url": "https://doi.org/10.1038/s41597-024-04325-6",
"journal": "Scientific Data",
"year": 2025,
"authors": "Chen, S.; Liu, L.; Sui, L.; Liu, X.; Ma, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Longitudinal Dataset of Net-load, PV Production and Solar Irradiation from Madeira Island, Portugal",
"doi": "10.1038/s41597-025-06118-x",
"url": "https://doi.org/10.1038/s41597-025-06118-x",
"journal": "Scientific Data",
"year": 2025,
"authors": "Pereira, L.; Monteiro, D.; Apina, F.; Scuri, S.; Barreto, M.",
"abstract": "Abstract\n This paper presents the PTProsumer dataset, a high-resolution dataset of photovoltaic (PV) production and net-load measurements collected from 24 prosumers - entities that both produce and consume electricity, including households and small commercial buildings - on Madeira Island, Portugal. The dataset covers monitoring periods ranging from 3 months to 5 years, with measurements sampled at a 1-second resolution, resulting in approximately 3.89 billion data points. PV ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A harmonized dataset of ground-mounted solar energy in the US with enhanced metadata",
"doi": "10.1038/s41597-025-05862-4",
"url": "https://doi.org/10.1038/s41597-025-05862-4",
"journal": "Scientific Data",
"year": 2025,
"authors": "Stid, J.; Kendall, A.; Anctil, A.; Rapp, J.; Bingaman, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A global urban tree leaf area index dataset for urban climate modeling",
"doi": "10.1038/s41597-025-04729-y",
"url": "https://doi.org/10.1038/s41597-025-04729-y",
"journal": "Scientific Data",
"year": 2025,
"authors": "Dong, W.; Yuan, H.; Lin, W.; Liu, Z.; Xiang, J.",
"abstract": "Abstract\n Urban trees are recognized for mitigating urban thermal stress, therefore incorporating their effects is crucial for urban climate research. However, due to the limitation of remote sensing, the LAI in urban areas is generally masked (e.g., MODIS), which in turn limits its application in Urban Canopy Models (UCMs). To address this gap, we developed a high-resolution (500 m) and long-time-series (2000–2022) urban tree LAI dataset derived through the Random Forest model trained ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A hierarchical dataset on multiple energy consumption and PV generation with emissions and weather information",
"doi": "10.1038/s41597-025-06010-8",
"url": "https://doi.org/10.1038/s41597-025-06010-8",
"journal": "Scientific Data",
"year": 2025,
"authors": "Dong, H.; Zhu, J.; Chung, C.; Liang, Z.; Yang, H.",
"abstract": "Abstract\n This study constructs a multi-source and hierarchical dataset of energy consumption, photovoltaic (PV) power generation, greenhouse gas (GHG) emissions, and weather information, dubbed Hierarchical Energy, Emissions, and Weather (HEEW). This dataset contains 11,987,328 records for 147 individual buildings, four aggregated communities, and the entire region, which is structured as time-series tables indexed by building ID and timestamps from 1 January 2014 to 31 Decembe",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A global dataset of the cost of capital for renewable energy projects",
"doi": "10.1038/s41597-025-05912-x",
"url": "https://doi.org/10.1038/s41597-025-05912-x",
"journal": "Scientific Data",
"year": 2025,
"authors": "Steffen, B.; Egli, F.; Gumber, A.; Ðukan, M.; Waidelich, P.",
"abstract": "Abstract\n The cost of capital (CoC) critically influences the levelized cost of renewable energy and, by extension, the global low-carbon transition. However, reliable and consistent CoC data remain scarce, limiting an appropriate reflection of CoC differences in energy system and integrated assessment models. We present a global dataset of CoC for renewable energy projects, covering 68 countries from 2010 to 2022 and focusing on three key technologies: utility-scale solar photovoltaics",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Dataset of CO2 geological storage potential and injection rate capacity in China based on fine grid technology",
"doi": "10.1038/s41597-025-04875-3",
"url": "https://doi.org/10.1038/s41597-025-04875-3",
"journal": "Scientific Data",
"year": 2025,
"authors": "Fan, J.; Xiang, X.; Yao, Y.; Li, K.; Li, Z.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Unveiling Energy Dynamics of Battery Electric Vehicle Using High-Resolution Data",
"doi": "10.1038/s41597-025-06148-5",
"url": "https://doi.org/10.1038/s41597-025-06148-5",
"journal": "Scientific Data",
"year": 2025,
"authors": "Yasko, M.; Moussa Issaka, A.; Tian, F.; Kazmi, H.; Driesen, J.",
"abstract": "Abstract\n Battery electric vehicles (BEVs) have increasingly positioned themselves as a critical technology in the power system, impacting the world’s energy consumption. Understanding the BEV energy dynamics can contribute to vehicle, infrastructure, and grid optimization. Currently, BEV manufacturers provide limited access to the vehicle’s high energy consuming components, such as the battery and the charger. Therefore, existing public datasets consist mostly of aggregated dat",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Multimodal dataset for wind turbine blade monitoring during lightning strikes",
"doi": "10.1038/s41597-025-05651-z",
"url": "https://doi.org/10.1038/s41597-025-05651-z",
"journal": "Scientific Data",
"year": 2025,
"authors": "Li, T.; Li, C.; Qin, Y.; Tan, L.; Jiang, B.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "High-resolution gridded dataset of China’s offshore wind potential and costs under technical change",
"doi": "10.1038/s41597-025-04428-8",
"url": "https://doi.org/10.1038/s41597-025-04428-8",
"journal": "Scientific Data",
"year": 2025,
"authors": "An, K.; Cai, W.; Lu, X.; Wang, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "A Global ERA5-based Tropical Cyclone Wind Field Dataset Enhanced by Integrated Parametric Correction Methods",
"doi": "10.1038/s41597-025-05789-w",
"url": "https://doi.org/10.1038/s41597-025-05789-w",
"journal": "Scientific Data",
"year": 2025,
"authors": "Liu, G.; Jiang, S.; Zheng, M.; Lin, S.; Kong, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Weather & Meteorological Data",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Rooftop solar can reduce energy insecurity",
"doi": "10.1038/s41560-025-01750-8",
"url": "https://doi.org/10.1038/s41560-025-01750-8",
"journal": "Nature Energy",
"year": 2025,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Unequal solar photovoltaic performance by race and income partly reflects financing models and installer choices",
"doi": "10.1038/s41560-025-01743-7",
"url": "https://doi.org/10.1038/s41560-025-01743-7",
"journal": "Nature Energy",
"year": 2025,
"authors": "Gherghina, M.; Dokshin, F.; Leffel, B.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Citizen-financed solar projects",
"doi": "10.1038/s41560-025-01710-2",
"url": "https://doi.org/10.1038/s41560-025-01710-2",
"journal": "Nature Energy",
"year": 2025,
"authors": "Lakeman, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Inert low-dimensional interfaces for perovskite solar cells",
"doi": "10.1038/s41560-025-01818-5",
"url": "https://doi.org/10.1038/s41560-025-01818-5",
"journal": "Nature Energy",
"year": 2025,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Graphite-protected organic photoactive layer for direct solar hydrogen generation",
"doi": "10.1038/s41560-025-01737-5",
"url": "https://doi.org/10.1038/s41560-025-01737-5",
"journal": "Nature Energy",
"year": 2025,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "An antisolvent-seeding approach to produce stable flexible tandem solar cells",
"doi": "10.1038/s41560-025-01766-0",
"url": "https://doi.org/10.1038/s41560-025-01766-0",
"journal": "Nature Energy",
"year": 2025,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Global greenhouse gas emissions mitigation potential of existing and planned hydrogen projects",
"doi": "10.1038/s41560-025-01892-9",
"url": "https://doi.org/10.1038/s41560-025-01892-9",
"journal": "Nature Energy",
"year": 2025,
"authors": "Terlouw, T.; Moretti, C.; Harpprecht, C.; Sacchi, R.; McKenna, R.",
"abstract": "Abstract\n \n Hydrogen will play a critical role in decarbonizing diverse economic sectors. However, given limited sustainable resources and the energy-intensive nature of its production, prioritizing its applications will be essential. Here, we analyse approximately 2,000 (low-carbon) hydrogen projects worldwide, encompassing operational and planned initiatives until 2043, quantifying their greenhouse gas (GHG) emissions and mitigation potential from a life cyc",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Author Correction: US industrial policy may reduce electric vehicle battery supply chain vulnerabilities and influence technology choice",
"doi": "10.1038/s41560-025-01799-5",
"url": "https://doi.org/10.1038/s41560-025-01799-5",
"journal": "Nature Energy",
"year": 2025,
"authors": "Cheng, A.; Fuchs, E.; Michalek, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "The impact of sound ordinances on the land-based wind technical potential of the United States",
"doi": "10.1038/s41560-025-01739-3",
"url": "https://doi.org/10.1038/s41560-025-01739-3",
"journal": "Nature Energy",
"year": 2025,
"authors": "Gu, J.; Glaws, A.; Harrison-Atlas, D.; Bortolotti, P.; Kaliski, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "A catalytic cycle that enables crude hydrogen separation, storage and transportation",
"doi": "10.1038/s41560-025-01806-9",
"url": "https://doi.org/10.1038/s41560-025-01806-9",
"journal": "Nature Energy",
"year": 2025,
"authors": "Chen, Y.; Kong, X.; Yang, C.; Liao, Y.; Gao, G.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Ambient pressure storage of high-density methane in nanoporous carbon coated with graphene",
"doi": "10.1038/s41560-025-01783-z",
"url": "https://doi.org/10.1038/s41560-025-01783-z",
"journal": "Nature Energy",
"year": 2025,
"authors": "Wang, S.; Vallejos-Burgos, F.; Furuse, A.; Otsuka, H.; Nagae, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "The EU battery carbon footprint rules need urgent attention",
"doi": "10.1038/s41560-025-01844-3",
"url": "https://doi.org/10.1038/s41560-025-01844-3",
"journal": "Nature Energy",
"year": 2025,
"authors": "Rajaeifar, M.; Müller, D.; Hanton, M.; Heidrich, O.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Converting methane into carbon nanotubes and hydrogen in a continuous flow reactor",
"doi": "10.1038/s41560-025-01926-2",
"url": "https://doi.org/10.1038/s41560-025-01926-2",
"journal": "Nature Energy",
"year": 2025,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Feasibility of meeting future battery demand via domestic cell production in Europe",
"doi": "10.1038/s41560-025-01722-y",
"url": "https://doi.org/10.1038/s41560-025-01722-y",
"journal": "Nature Energy",
"year": 2025,
"authors": "Link, S.; Schneider, L.; Stephan, A.; Weymann, L.; Plötz, P.",
"abstract": "Abstract\n Batteries are critical to mitigate global warming, with battery electric vehicles as the backbone of low-carbon transport and the main driver of advances and demand for battery technology. However, the future demand and production of batteries remain uncertain, while the ambition to strengthen national capabilities and self-sufficiency is gaining momentum. In this study, leveraging probabilistic modelling, we assessed Europe’s capability to meet its future demand for high-ener",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Deploying photovoltaic systems in global open-pit mines for a clean energy transition",
"doi": "10.1038/s41893-025-01594-w",
"url": "https://doi.org/10.1038/s41893-025-01594-w",
"journal": "Nature Sustainability",
"year": 2025,
"authors": "Wang, K.; Zhou, J.; Yang, R.; Xu, S.; Hu, Z.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Strategizing renewable energy transitions to preserve sediment transport integrity",
"doi": "10.1038/s41893-025-01626-5",
"url": "https://doi.org/10.1038/s41893-025-01626-5",
"journal": "Nature Sustainability",
"year": 2025,
"authors": "Xu, B.; Liu, Z.; Yan, S.; Schmitt, R.; He, X.",
"abstract": "Abstract\n Hydropower is vital for climate mitigation by enabling low-carbon energy systems, but hydropower dams also trap sediment, a crucial resource for ecosystems and climate adaptation along downstream coastlines. Here we present a multisectoral integrated water–sediment–energy planning framework that fully internalizes the impacts of hydropower expansion, both on energy system costs and on foregone ecosystem services from reduced sediment supply for the Mekong River Basin. ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "The future of large-scale solar interfacial desalination",
"doi": "10.1038/s41893-024-01497-2",
"url": "https://doi.org/10.1038/s41893-024-01497-2",
"journal": "Nature Sustainability",
"year": 2025,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "3D printing of organogel solar evaporators",
"doi": "10.1038/s41893-025-01741-3",
"url": "https://doi.org/10.1038/s41893-025-01741-3",
"journal": "Nature Sustainability",
"year": 2025,
"authors": "Zhang, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar-enhanced biological wastewater treatment",
"doi": "10.1038/s41893-025-01587-9",
"url": "https://doi.org/10.1038/s41893-025-01587-9",
"journal": "Nature Sustainability",
"year": 2025,
"authors": "Wang, W.; Huang, Y.; Wang, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Synergies and trade-offs of multi-use solar landscapes",
"doi": "10.1038/s41893-025-01600-1",
"url": "https://doi.org/10.1038/s41893-025-01600-1",
"journal": "Nature Sustainability",
"year": 2025,
"authors": "Merheb, C.; Macknick, J.; Davatzes, N.; Ravi, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Large-scale implementation of solar interfacial desalination",
"doi": "10.1038/s41893-024-01485-6",
"url": "https://doi.org/10.1038/s41893-024-01485-6",
"journal": "Nature Sustainability",
"year": 2025,
"authors": "Chen, Y.; Shen, L.; Qi, Z.; Luo, Z.; Li, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Embodied emissions of chemicals within the EU Carbon Border Adjustment Mechanism",
"doi": "10.1038/s41893-025-01618-5",
"url": "https://doi.org/10.1038/s41893-025-01618-5",
"journal": "Nature Sustainability",
"year": 2025,
"authors": "Minten, H.; Hausweiler, J.; Probst, B.; Reinert, C.; Meys, R.",
"abstract": "Abstract\n The European Union’s Carbon Border Adjustment Mechanism (CBAM) aims to avoid carbon leakage by pricing the production emissions of imported goods. Currently, the CBAM applies to iron and steel, cement, aluminium, fertilizers, electricity and hydrogen. As the European Union considers extending the CBAM to chemicals by 2030, its effectiveness in this complex industry remains uncertain. Here we assess how well the CBAM would capture emissions in the chemical industry by u",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Global hotspots of industrial chlorinated and brominated polycyclic aromatic hydrocarbon emissions",
"doi": "10.1038/s41893-025-01666-x",
"url": "https://doi.org/10.1038/s41893-025-01666-x",
"journal": "Nature Sustainability",
"year": 2025,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Global industrial emissions of chlorinated and brominated polycyclic aromatic hydrocarbons",
"doi": "10.1038/s41893-025-01656-z",
"url": "https://doi.org/10.1038/s41893-025-01656-z",
"journal": "Nature Sustainability",
"year": 2025,
"authors": "Yang, Y.; Liu, Y.; Yu, Z.; Zhu, G.; Lin, B.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Effects of demand and recycling on the when and where of lithium extraction",
"doi": "10.1038/s41893-025-01561-5",
"url": "https://doi.org/10.1038/s41893-025-01561-5",
"journal": "Nature Sustainability",
"year": 2025,
"authors": "Busch, P.; Chen, Y.; Ogbonna, P.; Kendall, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Electrochemical lithium recycling from spent batteries with electricity generation",
"doi": "10.1038/s41893-024-01505-5",
"url": "https://doi.org/10.1038/s41893-024-01505-5",
"journal": "Nature Sustainability",
"year": 2025,
"authors": "Wang, W.; Liu, Z.; Zhu, Z.; Ma, Y.; Zhang, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Economic costs of wind erosion in the United States",
"doi": "10.1038/s41893-024-01506-4",
"url": "https://doi.org/10.1038/s41893-024-01506-4",
"journal": "Nature Sustainability",
"year": 2025,
"authors": "Feng, I.; Gill, T.; Van Pelt, R.; Webb, N.; Tong, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Price sensitivity to precipitation and water storage in California",
"doi": "10.1038/s41893-025-01659-w",
"url": "https://doi.org/10.1038/s41893-025-01659-w",
"journal": "Nature Sustainability",
"year": 2025,
"authors": "Turland, M.; Carter, C.; Gafarov, B.; Hilscher, J.; Jessoe, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Improved silicon solar cells by tuning angular response to solar trajectory",
"doi": "10.1038/s41467-024-55681-1",
"url": "https://doi.org/10.1038/s41467-024-55681-1",
"journal": "Nature Communications",
"year": 2025,
"authors": "Green, M.; Zhou, Z.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Quantifying the pyroelectric and photovoltaic coupling series of ferroelectric films",
"doi": "10.1038/s41467-025-56233-x",
"url": "https://doi.org/10.1038/s41467-025-56233-x",
"journal": "Nature Communications",
"year": 2025,
"authors": "Hu, C.; Liu, X.; Dan, H.; Guo, C.; Zhang, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A pathway to coexistence of electroluminescence and photovoltaic conversion in organic devices",
"doi": "10.1038/s41467-025-67332-0",
"url": "https://doi.org/10.1038/s41467-025-67332-0",
"journal": "Nature Communications",
"year": 2025,
"authors": "Oono, T.; Aoki, Y.; Sasaki, T.; Shoji, H.; Okada, T.",
"abstract": "Abstract\n Achieving both high electroluminescence (EL) efficiency and power conversion efficiency (PCE) in a single organic device has long been considered difficult, since the design principles optimising one often compromise the other. In this study, we present a strategy employing multiple-resonance thermally activated delayed fluorescence materials with strong absorption and high emission efficiency, enabling coexistence of high EL and photovoltaic (PV) efficiencies. By prec",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Nonlinear photovoltaic effects in monolayer semiconductor and layered magnetic material hetero-interface with P- and T-symmetry broken system",
"doi": "10.1038/s41467-025-58918-9",
"url": "https://doi.org/10.1038/s41467-025-58918-9",
"journal": "Nature Communications",
"year": 2025,
"authors": "Asada, S.; Shinokita, K.; Watanabe, K.; Taniguchi, T.; Matsuda, K.",
"abstract": "Abstract\n Stacking two non-polar materials with different inversion- and rotational-symmetries shows unique nonlinear photovoltaic properties, with potential applications such as in next generation solar-cells. These nonlinear photocurrent properties could be further extended with broken time reversal symmetry present in magnetic materials, however, the combination of time reversal and rotation symmetry breaking has not been fully explored. Herein, we investigate the nonlinear photovolt",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Fast-switching dual-cathode electrochromic smart windows for year-round building energy savings",
"doi": "10.1038/s41467-025-64962-2",
"url": "https://doi.org/10.1038/s41467-025-64962-2",
"journal": "Nature Communications",
"year": 2025,
"authors": "Sun, F.; Pal, R.; Eom, S.; Choi, J.; Zhang, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Recyclable quasi-solid-state dynamic windows via reversible dual-metal electrodeposition for building energy modulation",
"doi": "10.1038/s41467-025-66963-7",
"url": "https://doi.org/10.1038/s41467-025-66963-7",
"journal": "Nature Communications",
"year": 2025,
"authors": "Xu, B.; Wu, W.; Zhang, Y.; Qiu, C.; Zhu, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Assessment of carbon-abatement pricing to maximize the value of electrolytic hydrogen in emissions-intensive power sectors",
"doi": "10.1038/s41467-025-62952-y",
"url": "https://doi.org/10.1038/s41467-025-62952-y",
"journal": "Nature Communications",
"year": 2025,
"authors": "Okunlola, A.; Davis, M.; Kumar, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Emerging green steel markets surrounding the EU emissions trading system and carbon border adjustment mechanism",
"doi": "10.1038/s41467-025-64440-9",
"url": "https://doi.org/10.1038/s41467-025-64440-9",
"journal": "Nature Communications",
"year": 2025,
"authors": "Johnson, C.; Åhman, M.; Nilsson, L.; Li, Z.",
"abstract": "Abstract\n The global steel industry accounts for 8–10 % of global CO2 emissions and requires deep decarbonisation for achieving the targets set in the Paris Agreement. However, no low-emission primary steel production technology has yet been commercially feasible or deployed. Through analysing revisions and additions of European Union climate policy, we show that green hydrogen-based steelmaking in competitive locations achieves cost-competitiveness on the European market starting 2026.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Uneven renewable energy supply constrains the decarbonization effects of excessively deployed hydrogen-based DRI technology",
"doi": "10.1038/s41467-025-59730-1",
"url": "https://doi.org/10.1038/s41467-025-59730-1",
"journal": "Nature Communications",
"year": 2025,
"authors": "Wang, Y.; Chen, C.; Tao, Y.; Wen, Z.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Global potential of sustainable single-cell protein based on variable renewable electricity",
"doi": "10.1038/s41467-025-56364-1",
"url": "https://doi.org/10.1038/s41467-025-56364-1",
"journal": "Nature Communications",
"year": 2025,
"authors": "Fasihi, M.; Jouzi, F.; Tervasmäki, P.; Vainikka, P.; Breyer, C.",
"abstract": "Abstract\n The environmental impacts of the food system exceed several planetary boundaries, with protein production being a major contributor. Single-Cell Protein (SCP) is a protein-rich microbial biomass that offers a sustainable alternative when derived from renewable energy and sustainable feedstocks. We evaluate the global potential for SCP production utilising electrolytic hydrogen and oxygen, atmospheric carbon dioxide and nitrogen, and hourly-optimised hybrid PV-wind power plants",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "CO-promoted polyethylene hydrogenolysis with renewable formic acid as hydrogen donor",
"doi": "10.1038/s41467-025-63189-5",
"url": "https://doi.org/10.1038/s41467-025-63189-5",
"journal": "Nature Communications",
"year": 2025,
"authors": "Wang, Y.; Hu, Q.; Qian, S.; Zhao, J.; Cheng, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Solvent-regulable interfacial groups enable on-demand superhydrophobic/superhydrophilic silica aerogels",
"doi": "10.1038/s41467-025-57246-2",
"url": "https://doi.org/10.1038/s41467-025-57246-2",
"journal": "Nature Communications",
"year": 2025,
"authors": "Chen, L.; Li, L.; Zhang, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Ion-engine hydrogel based solar desalination for water-electricity cogeneration with milliampere level current",
"doi": "10.1038/s41467-025-65280-3",
"url": "https://doi.org/10.1038/s41467-025-65280-3",
"journal": "Nature Communications",
"year": 2025,
"authors": "Chen, Y.; Ye, C.; He, J.; Qu, L.; Tang, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Energy and climate policy implications on the deployment of low-carbon ammonia technologies",
"doi": "10.1038/s41467-025-56006-6",
"url": "https://doi.org/10.1038/s41467-025-56006-6",
"journal": "Nature Communications",
"year": 2025,
"authors": "Chyong, C.; Italiani, E.; Kazantzis, N.",
"abstract": "Abstract\n \n The economic feasibility of low-carbon ammonia production pathways, such as steam methane reforming with carbon capture and storage, biomass gasification, and electrolysis, is assessed under various policy frameworks, including subsidies, carbon pricing, and renewable hydrogen regulations. Here, we show that employing a stochastic techno-economic analysis at the plant level and a net present value approach under the US Inflation Reduction Act revea",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Isotope-driven hydrogel smart windows for self-adaptive thermoregulation",
"doi": "10.1038/s41467-025-62432-3",
"url": "https://doi.org/10.1038/s41467-025-62432-3",
"journal": "Nature Communications",
"year": 2025,
"authors": "Tu, H.; Wang, T.; Chen, M.; Wu, L.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Author Correction: Electric vehicle battery chemistry affects supply chain disruption vulnerabilities",
"doi": "10.1038/s41467-025-61370-4",
"url": "https://doi.org/10.1038/s41467-025-61370-4",
"journal": "Nature Communications",
"year": 2025,
"authors": "Cheng, A.; Fuchs, E.; Karplus, V.; Michalek, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Lithium-ion battery recycling relieves the threat to material scarcity amid China’s electric vehicle ambitions",
"doi": "10.1038/s41467-025-61481-y",
"url": "https://doi.org/10.1038/s41467-025-61481-y",
"journal": "Nature Communications",
"year": 2025,
"authors": "Zhang, B.; Xin, Q.; Chen, S.; Wang, B.; Li, H.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Multi-modal framework for battery state of health evaluation using open-source electric vehicle data",
"doi": "10.1038/s41467-025-56485-7",
"url": "https://doi.org/10.1038/s41467-025-56485-7",
"journal": "Nature Communications",
"year": 2025,
"authors": "Liu, H.; Li, C.; Hu, X.; Li, J.; Zhang, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Increasing extreme winds challenge offshore wind energy resilience",
"doi": "10.1038/s41467-025-65105-3",
"url": "https://doi.org/10.1038/s41467-025-65105-3",
"journal": "Nature Communications",
"year": 2025,
"authors": "Zhao, Y.; Tao, Y.; Chen, Y.; Yan, J.; Zeng, Z.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Dust, sand and wind drive slope streaks on Mars",
"doi": "10.1038/s41467-025-65522-4",
"url": "https://doi.org/10.1038/s41467-025-65522-4",
"journal": "Nature Communications",
"year": 2025,
"authors": "Bickel, V.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Atmospheric wind energization of ocean weather",
"doi": "10.1038/s41467-025-56310-1",
"url": "https://doi.org/10.1038/s41467-025-56310-1",
"journal": "Nature Communications",
"year": 2025,
"authors": "Rai, S.; Farrar, J.; Aluie, H.",
"abstract": "Abstract\n \n Ocean weather comprises vortical and straining mesoscale motions, which play fundamentally different roles in the ocean circulation and climate system. Vorticity determines the movement of major ocean currents and gyres. Strain contributes to frontogenesis and the deformation of water masses, driving much of the mixing and vertical transport in the upper ocean. While recent studies have shown that interactions with the atmosphere damp the ocean’s m",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Cost-competitive offshore wind-powered green methanol production for maritime transport decarbonization",
"doi": "10.1038/s41467-025-60608-5",
"url": "https://doi.org/10.1038/s41467-025-60608-5",
"journal": "Nature Communications",
"year": 2025,
"authors": "Du, Y.; Shen, X.; Kammen, D.; Ding, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Emergence of the North Pacific heat storage pattern delayed by decadal wind-driven redistribution",
"doi": "10.1038/s41467-025-56005-7",
"url": "https://doi.org/10.1038/s41467-025-56005-7",
"journal": "Nature Communications",
"year": 2025,
"authors": "Duan, J.; Li, Y.; Lyu, Y.; Jing, Z.; Wang, F.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "A machine learning model for hub-height short-term wind speed prediction",
"doi": "10.1038/s41467-025-58456-4",
"url": "https://doi.org/10.1038/s41467-025-58456-4",
"journal": "Nature Communications",
"year": 2025,
"authors": "Zhang, Z.; Lin, L.; Gao, S.; Wang, J.; Zhao, H.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Trends in vertical wind velocity variability reveal cloud microphysical feedback",
"doi": "10.1038/s41467-025-67541-7",
"url": "https://doi.org/10.1038/s41467-025-67541-7",
"journal": "Nature Communications",
"year": 2025,
"authors": "Barahona, D.; Breen, K.; Ngo, D.; Maciel, F.; Patnaude, R.",
"abstract": "Abstract\n \n By controlling supersaturation vertical air motion influences how aerosols activate into cloud droplets and ice crystals. This effect is difficult to represent accurately in atmospheric models as they cannot typically resolve the sub-kilometer scale component of wind motion, however it can be addressed by machine learning. Here we apply a generative technique combining storm-resolving simulations, observational and climate reanalysis data, to predi",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Weather & Meteorological Data",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Detecting and calibrating large biases in global onshore wind power assessment across temporal scales",
"doi": "10.1038/s41467-025-59195-2",
"url": "https://doi.org/10.1038/s41467-025-59195-2",
"journal": "Nature Communications",
"year": 2025,
"authors": "Hou, C.; Xu, Z.; Karnauskas, K.; Huang, D.; Lu, H.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Engineering relaxors by embedding ultra-weak polar regions for superior energy storage",
"doi": "10.1038/s41467-025-61406-9",
"url": "https://doi.org/10.1038/s41467-025-61406-9",
"journal": "Nature Communications",
"year": 2025,
"authors": "Dong, X.; Fu, Z.; Wang, Z.; Lv, X.; Wu, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Harnessing local inhomogeneity for enhanced dielectric energy storage",
"doi": "10.1038/s41467-025-61250-x",
"url": "https://doi.org/10.1038/s41467-025-61250-x",
"journal": "Nature Communications",
"year": 2025,
"authors": "Liu, Y.; Yang, B.; Lan, S.; Zhou, Z.; Dou, L.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Bioinspired nondissipative mechanical energy storage and release in hydrogels via hierarchical sequentially swollen stretched chains",
"doi": "10.1038/s41467-025-59743-w",
"url": "https://doi.org/10.1038/s41467-025-59743-w",
"journal": "Nature Communications",
"year": 2025,
"authors": "Savolainen, H.; Hosseiniyan, N.; Piedrahita-Bello, M.; Ikkala, O.",
"abstract": "Abstract\n Nature suggests concepts for materials with efficient mechanical energy storage and release, i.e., resilience, involving small energy dissipation upon mechanical loading and unloading, such as in resilin and elastin. These materials facilitate burst-like movements involving high stiffness and low strain and high reversibility. Synthetic hydrogels that allow highly reversible mechanical energy storage have remained a challenge, despite mimicking biological soft tissues.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Design of hierarchical-heterostructure antiferroelectrics for ultrahigh capacitive energy storage",
"doi": "10.1038/s41467-025-65694-z",
"url": "https://doi.org/10.1038/s41467-025-65694-z",
"journal": "Nature Communications",
"year": 2025,
"authors": "Chen, L.; Hu, T.; Qi, H.; Yu, H.; Fu, Z.",
"abstract": "Abstract\n \n Electrostatic dielectric capacitors with high power density are the fundamental energy storage components in advanced electronic and electric power systems. However, simultaneously achieving ultrahigh energy density and efficiency poses a persistent challenge, preventing the capacitive applications towards miniaturization and low-energy consumption. Here we demonstrate giant energy storage properties in lead-free antiferroelectrics by designing hie",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Scenario-adaptive hierarchical optimisation framework for design in hybrid energy storage systems",
"doi": "10.1038/s41467-025-67377-1",
"url": "https://doi.org/10.1038/s41467-025-67377-1",
"journal": "Nature Communications",
"year": 2025,
"authors": "Guo, J.; Wu, H.; Ma, T.; Yin, R.; Zhou, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Machine learning assisted composition design of high-entropy Pb-free relaxors with giant energy-storage",
"doi": "10.1038/s41467-025-56443-3",
"url": "https://doi.org/10.1038/s41467-025-56443-3",
"journal": "Nature Communications",
"year": 2025,
"authors": "Wang, X.; Zhang, J.; Ma, X.; Luo, H.; Liu, L.",
"abstract": "Abstract\n The high-entropy strategy has emerged as a prevalent approach to boost capacitive energy-storage performance of relaxors for advanced electrical and electronic systems. However, exploring high-performance high-entropy systems poses challenges due to the extensive compositional space. Herein, with the assistance of machine learning screening, we demonstrated a high energy-storage density of 20.7 J cm-3 with a high efficiency of 86% in a high-entropy Pb-free relaxor ceramic. A r",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Overrated energy storage performances of dielectrics seriously affected by fringing effect and parasitic capacitance",
"doi": "10.1038/s41467-025-55855-5",
"url": "https://doi.org/10.1038/s41467-025-55855-5",
"journal": "Nature Communications",
"year": 2025,
"authors": "Ding, S.; Jia, J.; Xu, B.; Dai, Z.; Wang, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Pyrogenic carbon contribution to tropical savanna soil carbon storage",
"doi": "10.1038/s41467-025-64699-y",
"url": "https://doi.org/10.1038/s41467-025-64699-y",
"journal": "Nature Communications",
"year": 2025,
"authors": "Zhou, Y.; Karp, A.; Schmidt, A.; Coetsee, C.",
"abstract": "Abstract\n \n Savannas are fire-prone ecosystems that contribute substantially to global fire emissions, but these emissions may be partly offset by deposition of fire-derived, persistent pyrogenic carbon (PyC) in soils. Although estimates of PyC contributions to soil organic carbon (SOC) storage in savanna exist, factors driving its accumulation remain unclear due to limited measurements with consistent methods. To address this, we sampled 253 sites across trop",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Ultra-low power-consumption OLEDs via phosphor-assisted thermally-activated-delayed-fluorescence-sensitized narrowband emission",
"doi": "10.1038/s41467-024-55564-5",
"url": "https://doi.org/10.1038/s41467-024-55564-5",
"journal": "Nature Communications",
"year": 2025,
"authors": "Yin, C.; Xin, Y.; Huang, T.; Zhang, Q.; Duan, L.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "On-demand, readily degradable Poly-2,3-dihydrofuran enabled by anion-binding catalytic copolymerization",
"doi": "10.1038/s41467-025-59834-8",
"url": "https://doi.org/10.1038/s41467-025-59834-8",
"journal": "Nature Communications",
"year": 2025,
"authors": "Zhang, Z.; Lv, W.; Li, M.; Wang, Y.; Wang, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Wind droughts threaten energy reliability",
"doi": "10.1038/s41558-025-02383-1",
"url": "https://doi.org/10.1038/s41558-025-02383-1",
"journal": "Nature Climate Change",
"year": 2025,
"authors": "Haupt, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Africa must lead the governance of solar radiation management",
"doi": "10.1038/s41558-025-02420-z",
"url": "https://doi.org/10.1038/s41558-025-02420-z",
"journal": "Nature Climate Change",
"year": 2025,
"authors": "Quagraine, K.; Abiodun, B.; Essien-Baidoo, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Emissions reductions of rooftop solar are overstated by approaches that inadequately capture substitution effects",
"doi": "10.1038/s41558-025-02459-y",
"url": "https://doi.org/10.1038/s41558-025-02459-y",
"journal": "Nature Climate Change",
"year": 2025,
"authors": "Bistline, J.; Watten, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Worldwide rooftop photovoltaic electricity generation may mitigate global warming",
"doi": "10.1038/s41558-025-02276-3",
"url": "https://doi.org/10.1038/s41558-025-02276-3",
"journal": "Nature Climate Change",
"year": 2025,
"authors": "Zhang, Z.; Qian, Z.; Chen, M.; Zhu, R.; Zhang, F.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Marine heatwaves select for thermal tolerance in a reef-building coral",
"doi": "10.1038/s41558-025-02381-3",
"url": "https://doi.org/10.1038/s41558-025-02381-3",
"journal": "Nature Climate Change",
"year": 2025,
"authors": "Howells, E.; Abrego, D.; Schmidt-Roach, S.; Puill-Stephan, E.; Denis, H.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Prolonged wind droughts in a warming climate threaten global wind power security",
"doi": "10.1038/s41558-025-02387-x",
"url": "https://doi.org/10.1038/s41558-025-02387-x",
"journal": "Nature Climate Change",
"year": 2025,
"authors": "Qu, M.; Shen, L.; Zeng, Z.; Yang, B.; Zhong, H.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Governance challenges for domestic cross-border carbon capture and storage",
"doi": "10.1038/s41558-025-02250-z",
"url": "https://doi.org/10.1038/s41558-025-02250-z",
"journal": "Nature Climate Change",
"year": 2025,
"authors": "Zhang, X.; Li, F.; Gu, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "The equity implications of pecuniary externalities on an electric grid",
"doi": "10.1093/pnasnexus/pgaf356",
"url": "https://doi.org/10.1093/pnasnexus/pgaf356",
"journal": "npj Clean Energy",
"year": 2025,
"authors": "Sims, C.; Ali, G.; Holladay, J.; Roberson, T.; Chen, C.",
"abstract": "Abstract\n The adoption of rooftop photovoltaic (PV) systems can create upward pressure on retail electricity rates as utilities are forced to spread their fixed costs of generation and transmission across a smaller customer base. Since high-income households are more likely to purchase PV systems, low-income households may be disproportionately impacted by these rate increases. Using a novel combination of agent-based computational economic modeling and a choice experiment of ro",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Multicriteria models provide enhanced insight for siting US offshore wind",
"doi": "10.1093/pnasnexus/pgaf051",
"url": "https://doi.org/10.1093/pnasnexus/pgaf051",
"journal": "npj Clean Energy",
"year": 2025,
"authors": "Santarromana, R.; Abdulla, A.; Morgan, M.; Mendonça, J.",
"abstract": "Abstract\n Offshore wind can be a key contributor to energy system decarbonization, but its deployment in certain regions has been slow, partly due to opposition from disparate interests. Failure to sufficiently address the concerns of external stakeholders could continue to hamper deployment. Here, we use a multi criteria model to assess all possible sites in a 2 km × 2 km grid of all potential locations in continental US federal waters, contrasting the perspectives of developers a",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Unveiling deployable rooftop solar potential across Chinese cities",
"doi": "10.1038/s44284-025-00270-6",
"url": "https://doi.org/10.1038/s44284-025-00270-6",
"journal": "Nature Cities",
"year": 2025,
"authors": "Shi, M.; Lu, X.; Craig, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Establishing the nexus between urban walkability and thermal comfort in a changing climate",
"doi": "10.1038/s44284-025-00315-w",
"url": "https://doi.org/10.1038/s44284-025-00315-w",
"journal": "Nature Cities",
"year": 2025,
"authors": "Abuwaer, N.; Ullah, S.; Al-Ghamdi, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Control strategy evaluation for reactive power management in grid-connected photovoltaic systems under varying solar conditions",
"doi": "10.1038/s41598-025-08918-y",
"url": "https://doi.org/10.1038/s41598-025-08918-y",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Adak, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Development of a new solar system integrating photovoltaic and thermoelectric modules with paraffin-based nanomaterials",
"doi": "10.1038/s41598-025-85161-5",
"url": "https://doi.org/10.1038/s41598-025-85161-5",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Alinia, A.; Sheikholeslami, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Design and performance analysis of a solar photovoltaic system for a rural community in rivers state, Nigeria",
"doi": "10.1038/s41598-025-00664-5",
"url": "https://doi.org/10.1038/s41598-025-00664-5",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Ukoima, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Quadrant swapping technique for partial shaded solar photovoltaic system",
"doi": "10.1038/s41598-025-15120-7",
"url": "https://doi.org/10.1038/s41598-025-15120-7",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Thangaraj, H.; Chokkalingam, B.; Aruchamy, S.; David, P.; Padmanaban, S.",
"abstract": "Abstract\n Solar energy is one among the most essential renewable sources, and its use is vital to the long-term progress in environmental and energy development. Partial shadowing issues are frequently encountered for solar photovoltaic (PV) systems, and they always influence the PV array’s output power production. There are numerous methods used to reconfigure the PV arrays to extract the possible maximum power. However, those methods have sub-optimal performance in addressing certain ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Photovoltaic solar energy prediction using the seasonal-trend decomposition layer and ASOA optimized LSTM neural network model",
"doi": "10.1038/s41598-025-87625-0",
"url": "https://doi.org/10.1038/s41598-025-87625-0",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Mohanasundaram, V.; Rangaswamy, B.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Optimizing photovoltaic power plant forecasting with dynamic neural network structure refinement",
"doi": "10.1038/s41598-024-80424-z",
"url": "https://doi.org/10.1038/s41598-024-80424-z",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Díaz-Bello, D.; Vargas-Salgado, C.; Alcazar-Ortega, M.; Alfonso-Solar, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "MXene-based multilayered and ultrawideband absorber for solar cell and photovoltaic applications",
"doi": "10.1038/s41598-025-86230-5",
"url": "https://doi.org/10.1038/s41598-025-86230-5",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Ngobeh, J.; Sorathiya, V.; Alwabli, A.; Jaffar, A.; Faragallah, O.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar photovoltaic feed-in tariffs: viability analysis and policy recommendations",
"doi": "10.1038/s41598-025-32105-8",
"url": "https://doi.org/10.1038/s41598-025-32105-8",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Mekonnen, T.; Tsegaye, S.; Belete, B.; Selvaraj, J.; Negewo, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Enhancing photovoltaic efficiency in Half-Tandem MAPbI3/ MASnI3 Perovskite solar cells with triple core-shell plasmonic nanoparticles",
"doi": "10.1038/s41598-025-85243-4",
"url": "https://doi.org/10.1038/s41598-025-85243-4",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Ivriq, S.; Mohammadi, M.; Davidsen, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Seasonal quantile forecasting of solar photovoltaic power using Q-CNN-GRU",
"doi": "10.1038/s41598-025-12797-8",
"url": "https://doi.org/10.1038/s41598-025-12797-8",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Ait Mouloud, L.; Kheldoun, A.; Oussidhoum, S.; Alharbi, H.; Alotaibi, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Smart building energy management with renewables and storage systems using a modified weighted mean of vectors algorithm",
"doi": "10.1038/s41598-024-79782-5",
"url": "https://doi.org/10.1038/s41598-024-79782-5",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Ebeed, M.; hassan, S.; Kamel, S.; Nasrat, L.; Mohamed, A.",
"abstract": "Abstract\n With the advancement of automation technologies in household appliances, the flexibility of smart home energy management (EM) systems has increased. However, this progress has brought about a new challenge for smart homes: the EM has become more complex with the integration of multiple conventional, renewable, and energy storage systems. To address this challenge, a novel modified Weighted Mean of Vectors algorithm (MINFO) is proposed. This algorithm aims to enhance the perfor",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Smart Home & EMS",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Carbon footprint and energy payback time of a micro wind turbine for urban decarbonization planning",
"doi": "10.1038/s41598-025-10540-x",
"url": "https://doi.org/10.1038/s41598-025-10540-x",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Pfadt-Trilling, A.; Fortier, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Optimal energy management of multi-carrier energy system considering uncertainty in renewable generation",
"doi": "10.1038/s41598-025-10404-4",
"url": "https://doi.org/10.1038/s41598-025-10404-4",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Garg, A.; Niazi, K.; Tiwari, S.; Sharma, S.; Rawat, T.",
"abstract": "Abstract\n This paper presents a structured approach for the efficient operation of multi-carrier energy systems under the uncertainty of renewable energy sources. As the penetration of wind and solar energy increases, managing the resulting variability becomes critical to maintaining both economic efficiency and operational flexibility. To address this, a two-stage multi objective optimization framework is proposed. In the first stage, the objective is to minimize daily operational cost",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Capabilities of battery and compressed air storage in the economic energy scheduling and flexibility regulation of multi-microgrids including non-renewable/renewable units",
"doi": "10.1038/s41598-025-06768-2",
"url": "https://doi.org/10.1038/s41598-025-06768-2",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Naghibi, A.; Akbari, E.; Veisi, M.; Shahmoradi, S.; Pirouzi, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Minimization of total costs for distribution systems with battery energy storage systems and renewable energy sources",
"doi": "10.1038/s41598-025-01972-6",
"url": "https://doi.org/10.1038/s41598-025-01972-6",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Pham, T.; Nguyen, T.; Kien, L.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "A bi-level optimization strategy of electricity-hydrogen-carbon integrated energy system considering photovoltaic and wind power uncertainty and demand response",
"doi": "10.1038/s41598-024-84605-8",
"url": "https://doi.org/10.1038/s41598-024-84605-8",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Lu, M.; Teng, Y.; Chen, Z.; Song, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Mitigating anthropogenic climate change with aqueous green energy",
"doi": "10.1038/s41598-025-86042-7",
"url": "https://doi.org/10.1038/s41598-025-86042-7",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Olim, S.; Nickoloff, A.; Moffat, L.; Weaver, A.; Eby, M.",
"abstract": "AbstractReaching net zero emissions and limiting global warming to 2 °C requires the widespread introduction of technology-based solutions to draw down existing atmospheric levels and future emissions of CO2. One such approach is direct air CO2 capture and storage (DACCS), a readily available, yet energy-intensive process. The combination of DACCS and ocean thermal energy conversion (OTEC) allows for independently powered carbon capture plants to inject concentrated carbon into deep marine sedim",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar potential assessment using machine learning and climate change projections for long-term energy planning",
"doi": "10.1038/s41598-025-23661-0",
"url": "https://doi.org/10.1038/s41598-025-23661-0",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Reddy, B.; Gautam, K.; Pachauri, N.",
"abstract": "Abstract\n This work proposes a novel method for evaluating solar potential, essential for the development, installation, and operation of solar power systems. The approach forecasts solar energy potential for specific sites by utilizing integrated geospatial, meteorological, and infrastructural multidimensional data. A new application has been released to assess the solar capacity globally. The study evaluated various machine learning methods, ultimately selecting an XGBoost mod",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A novel approach to wind energy modeling in the context of climate change at Zaafrana region in Egypt",
"doi": "10.1038/s41598-025-90583-2",
"url": "https://doi.org/10.1038/s41598-025-90583-2",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Kamel, B.; Abdelaziz, A.; Attia, M.; Khamees, A.",
"abstract": "Abstract\n Global warming, driven by the excessive emission of greenhouse gases from the combustion of fossil fuels, has emerged as a critical environmental challenge which is considered as a motivation for this research. Where, the switch to sustainable energy sources is crucial because of the pressing need to slow down climate change and lower carbon footprints. Of all the renewable energy sources, wind energy is particularly important as a means of reducing carbon emissions from the g",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Optimal micro-grid battery scheduling within a comprehensive smart pricing scheme",
"doi": "10.1038/s41598-025-02690-9",
"url": "https://doi.org/10.1038/s41598-025-02690-9",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Ali, M.; Besheer, A.; Emara, H.; Bahgat, A.",
"abstract": "Abstract\n The challenge of optimizing battery operating revenue while mitigating aging costs remains inadequately addressed in current literature. This paper introduces a novel cost–benefit approach for scheduling battery energy storage systems (BESS) within microgrids (MGs) that features smart grid attributes. The proposed comprehensive approach accounts for fluctuations of real-time pricing, demand charge tariffs, and battery degradation cost. Using the dynamic programming technique, ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Effect of thermal stress on the life of DC link capacitors for smart grid",
"doi": "10.1038/s41598-025-88522-2",
"url": "https://doi.org/10.1038/s41598-025-88522-2",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Sun, X.; Qiao, Y.; Li, Y.; Cao, C.; Guo, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Prediction of electricity consumption and hydropower production in the smart power grid based on the gated recurrent unit neural network and modified future search algorithm",
"doi": "10.1038/s41598-025-32294-2",
"url": "https://doi.org/10.1038/s41598-025-32294-2",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Tang, H.; Wang, Y.; Yuan, X.; Razmjooy, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Grid tied hybrid PV fuel cell system with energy storage and ANFIS based MPPT for smart EV charging",
"doi": "10.1038/s41598-025-09626-3",
"url": "https://doi.org/10.1038/s41598-025-09626-3",
"journal": "Scientific Reports",
"year": 2025,
"authors": "vendoti, S.; Tulasi, N.; Jalli, R.; Ponnuru, S.; Jin, Z.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Machine learning-based approach for reduction of energy consumption in hybrid energy storage electric vehicle",
"doi": "10.1038/s41598-025-11330-1",
"url": "https://doi.org/10.1038/s41598-025-11330-1",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Paulraj, T.; Obulesu, Y.",
"abstract": "Abstract\n This research introduces a novel machine learning-based strategy for generating supercapacitor (SC) reference current to optimize energy distribution in Battery Electric Vehicles (BEV) and Hybrid Battery Electric Vehicles (HBEV). A Long Short-Term Memory (LSTM) neural network is trained using real-world drive cycle data and exported in Open Neural Network Exchange (ONNX) format for real-time deployment within a Simulink-based control environment. This enables adaptive SC curre",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Location allocation and capacity optimization for a PV and battery integrated hybrid community electric vehicle charging station",
"doi": "10.1038/s41598-025-31865-7",
"url": "https://doi.org/10.1038/s41598-025-31865-7",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Kayal, P.; Braciník, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Smart Strategies for Improving Electric Vehicle Battery Performance and Efficiency",
"doi": "10.1038/s41598-025-25987-1",
"url": "https://doi.org/10.1038/s41598-025-25987-1",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Tangi, S.; Vatsa, A.; Opam, A.; Bonthagorla, P.; Gaonkar, D.",
"abstract": "Abstract\n The increasing demand for Electric Vehicles (EVs) necessitates accurate range prediction and optimization of driving parameters to address range anxiety and improve user experience. This study proposes a machine learning-based framework for predicting EV range, optimum acceleration, and velocity using a synthetically generated dataset of 2,000 samples designed to reflect real-world driving scenarios. Four models—Random Forest (RF), Extra Trees (ET), Linear Regression (",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Strategic design of wind energy and battery storage for efficient and sustainable energy systems",
"doi": "10.1038/s41598-025-18863-5",
"url": "https://doi.org/10.1038/s41598-025-18863-5",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Eroğlu, H.; Kurtuluş, O.",
"abstract": "Abstract\n The intermittent nature of renewable energy sources, particularly wind power, necessitates advanced energy management and storage strategies to ensure grid stability and economic viability. This study investigates the techno economic benefits of integrating Battery Energy Storage Systems (BESS) into wind power plants by developing and evaluating optimized hybrid operation strategies. Using real world Data from a 70 MW wind farm, ten distinct operational strategies were simulat",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Advancing wind energy potential estimation through multidistribution wind speed analysis in coastal Pakistan",
"doi": "10.1038/s41598-025-03322-y",
"url": "https://doi.org/10.1038/s41598-025-03322-y",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Abbas, G.; Ali, A.; Mushtaq, Z.; Rehman, A.; Hussen, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "A spatial decision making framework using neutrosophic VIKOR for wind energy investment in Turkey",
"doi": "10.1038/s41598-025-18799-w",
"url": "https://doi.org/10.1038/s41598-025-18799-w",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Eroğlu, H.",
"abstract": "Abstract\n The growing demand for clean energy and the urgency of reducing carbon emissions have made wind power a key element of Turkey’s renewable energy strategy. However, identifying optimal regions for wind energy investment remains a complex task due to the interplay of technical, spatial, and economic factors, all of which are characterized by varying degrees of uncertainty. Although GIS-based site selection and multi-criteria decision-making (MCDM) methods are widely used, few ap",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Interval-aware optimal control of PMSG-based wind energy conversion systems via piecewise Chebyshev inclusion",
"doi": "10.1038/s41598-025-26563-3",
"url": "https://doi.org/10.1038/s41598-025-26563-3",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Razmjooy, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Optimizing weak grid integrated wind energy systems using ANFIS-SRF controlled DSTATCOM",
"doi": "10.1038/s41598-025-98872-6",
"url": "https://doi.org/10.1038/s41598-025-98872-6",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Ramana, P.; Rosalina, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "An aeroelastic wind energy harvester with continuous orbiting motion and no friction components",
"doi": "10.1038/s41598-025-17512-1",
"url": "https://doi.org/10.1038/s41598-025-17512-1",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Denissenko, P.; Tucker Harvey, S.",
"abstract": "Abstract\n A continuous-movement aeroelastic energy harvester with no friction parts is presented. Different from the commonly used vortex-induced vibration or galloping devices, the proposed energy harvesting system is constructed with a circular arc airfoil mounted to a flexible beam that follows a closed trajectory rather than oscillating linearly. The continuous motion of the airfoil results in the flow being fully attached, resulting in a greater efficiency than that of conventional",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "DDPG algorithm for power optimization and control of solar PV-integrated DFIG wind energy systems",
"doi": "10.1038/s41598-025-19818-6",
"url": "https://doi.org/10.1038/s41598-025-19818-6",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Pandey, R.; Bose, S.; Dwivedi, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Dynamic behaviour and power performance of a Septon semisubmersible floating wind turbine integrated with wave energy converters",
"doi": "10.1038/s41598-025-25012-5",
"url": "https://doi.org/10.1038/s41598-025-25012-5",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Sebastian, B.; Karmakar, D.; Rao, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Reducing power ripple for multi-rotor wind energy systems using FOPDPI controllers",
"doi": "10.1038/s41598-025-96625-z",
"url": "https://doi.org/10.1038/s41598-025-96625-z",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Benbouhenni, H.; Colak, I.; Elbarbary, Z.; Irshad, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Predictive riccati control for enhancing power quality using extended pq theory in wind energy-based conversion systems",
"doi": "10.1038/s41598-025-13782-x",
"url": "https://doi.org/10.1038/s41598-025-13782-x",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Sundari, K.; Umamaheswari, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Design of a distributed power system using solar PV and micro turbine-based wind energy system with a flywheel energy storage",
"doi": "10.1038/s41598-025-29604-z",
"url": "https://doi.org/10.1038/s41598-025-29604-z",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Bhavani, T.; Rajababu, D.; Irfan, M.; Rakesh, T.; Sekhar, P.",
"abstract": "Abstract\n As renewable energy sources gain distinction in distributed power generation, micro-grid systems integrating solar photovoltaic (PV), micro-turbine-based wind energy, and flywheel energy storage have developed as sustainable solutions. This paper presents a novel design methodology for a hybrid micro-grid system that optimally integrates these components, ensuring enhanced efficiency, resilience, and stability. In a grid outage or weak-grid scenario, a flywheel provide",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Conceptual design of airborne contra rotating VAWTs for rooftop wind energy",
"doi": "10.1038/s41598-025-90601-3",
"url": "https://doi.org/10.1038/s41598-025-90601-3",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Radhakrishnan, J.; Sridhar, S.; Zuber, M.; Ng, E.; Shenoy, B.",
"abstract": "Abstract\n Co-rotating, counter, and contra-rotating Vertical Axis Wind Turbines (VAWTs) offer higher power yields than singular turbines due to synergetic interactions, making them ideal for rooftop applications. This study focuses on enhancing the efficiency of a Contra-Rotating VAWT (CR-VAWT) using a ducted airborne configuration. A wind gathering device (WGD), optimized via the Taguchi method, is integrated around the CR-VAWT, which is elevated using an oblate spheroid aerostat desig",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Economic and environmental assessment of different energy storage methods for hybrid energy systems",
"doi": "10.1038/s41598-025-09732-2",
"url": "https://doi.org/10.1038/s41598-025-09732-2",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Liu, Y.; Zhang, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Bi-objective operation optimization of regional integrated energy system considering shared energy storage",
"doi": "10.1038/s41598-025-22502-4",
"url": "https://doi.org/10.1038/s41598-025-22502-4",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Li, X.; Zhu, L.; Zhao, L.; Zhang, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Multi-timescale optimization scheduling of integrated energy systems oriented towards generalized energy storage services",
"doi": "10.1038/s41598-025-92601-9",
"url": "https://doi.org/10.1038/s41598-025-92601-9",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Mao, Y.; Cai, Z.; Jiao, X.; Long, D.",
"abstract": "Abstract\n This paper addresses the limitations of existing research that focuses on single-sided resources and two-timescale optimization, overlooking the coordinated response of various energy storage resources across different timescales in comprehensive energy systems. To tackle these shortcomings, the study integrates flexible demand-side resources, such as electric vehicles (EVs), hydrogen storage, and air conditioning clusters, as generalized energy storage. It explores their impa",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Optimizing CHP-based multi-carrier energy networks with advanced energy storage solutions",
"doi": "10.1038/s41598-025-24804-z",
"url": "https://doi.org/10.1038/s41598-025-24804-z",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Hamedi, A.; Seifi, A.; Abbasi, A.; Keihan Asl, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Experimental analysis of solar still equipped with porous rubber sheet as energy storage material",
"doi": "10.1038/s41598-025-93148-5",
"url": "https://doi.org/10.1038/s41598-025-93148-5",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Sathyamurthy, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Optimal scheduling of integrated energy system with gas–liquid phase change carbon dioxide energy storage considering multi-layer low-carbon benefits",
"doi": "10.1038/s41598-025-05438-7",
"url": "https://doi.org/10.1038/s41598-025-05438-7",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Li, W.; An, G.; Cai, T.; Yang, Q.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Artificial intelligence powered intelligent energy management framework for hydrogen storage and dispatch in smart microgrids",
"doi": "10.1038/s41598-025-24408-7",
"url": "https://doi.org/10.1038/s41598-025-24408-7",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Hassan, M.",
"abstract": "Abstract\n \n Hydrogen energy storage is increasingly recognized as a key enabler for enhancing flexibility and reliability in smart microgrids with high shares of renewable energy. However, its practical deployment remains constrained by challenges such as real-time dispatch complexity, forecasting uncertainty, and nonlinear system dynamics. This study presents a novel AI-powered decision-support framework that integrates Long Short-Term Memory (LSTM) neural ne",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Study on indoor thermal environment and energy consumption of traditional dwellings of ethnic minorities in Sichuan plateau",
"doi": "10.1038/s41598-025-93002-8",
"url": "https://doi.org/10.1038/s41598-025-93002-8",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Zhang, Y.; Wang, B.",
"abstract": "Abstract\n In this paper, field tests, questionnaire surveys, and DesignBuilder were used to analyse the indoor thermal environment and energy consumption of traditional houses in a traditional ethnic minority village of Western Sichuan Plateau of China, The results showed that during the summer test period, the outdoor temperature range was 9.3–7.8 °C and the relative humidity range was 53.5–67.4%, while the indoor temperature range of the tested room was 13.3–2.3 °C, and the relative h",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "An optimized demand response framework for enhancing power system reliability under wind power and EV-induced uncertainty",
"doi": "10.1038/s41598-025-05482-3",
"url": "https://doi.org/10.1038/s41598-025-05482-3",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Pakbin, H.; Karimi, A.; Hassanzadeh, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Demand Response",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Multiobjective distribution system operation with demand response to optimize solar hosting capacity, voltage deviation index and network loss",
"doi": "10.1038/s41598-024-82379-7",
"url": "https://doi.org/10.1038/s41598-024-82379-7",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Loji, K.; Sharma, S.; Sharma, G.; Rawat, T.",
"abstract": "AbstractIn this research, demand response impact on the hosting capacity of solar photovoltaic for distribution system is investigated. The suggested solution model is formulated and presented as a tri-objective optimization that consider maximization of solar PV hosting capacity (HC), minimization of network losses (Loss) and maintaining node voltage deviation (VDev) within acceptable limits. These crucial objectives are optimized simultaneously as well as individually. To assess the efficacy o",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "An intelligent incentive-based demand response program for exhaustive environment constrained techno-economic analysis of microgrid system",
"doi": "10.1038/s41598-025-85175-z",
"url": "https://doi.org/10.1038/s41598-025-85175-z",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Dey, B.; Sharma, G.; Bokoro, P.; Dutta, S.",
"abstract": "AbstractThe cost-effective scheduling of distributed energy resources through sophisticated optimization algorithms is the main focus of recent work on microgrid energy management. In order to improve load factor and efficiency, load-shifting techniques are frequently used in conjunction with additional complex constraints such as PHEV scheduling and battery life assessment. Pollutant reduction, however, is rarely highlighted as a primary goal. An incentive-based demand response (IBDR) is introd",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Demand Response",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Day-ahead economic dispatch of wind-integrated microgrids using coordinated energy storage and hybrid demand response strategies",
"doi": "10.1038/s41598-025-11561-2",
"url": "https://doi.org/10.1038/s41598-025-11561-2",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Meng, Q.; He, Y.; Hussain, S.; Lu, J.; Guerrero, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Demand Response",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Multi-objective optimization of gamified demand response for PV-integrated microgrids: a novel NSGA-III framework with behavioral adaptation modeling",
"doi": "10.1038/s41598-025-13904-5",
"url": "https://doi.org/10.1038/s41598-025-13904-5",
"journal": "Scientific Reports",
"year": 2025,
"authors": "Duan, Y.; Gao, C.; Zhang, J.; Wu, Y.; Zhou, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Demand Response",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Mine photovoltaic systems for a sustainable energy transition",
"doi": "10.1016/j.joule.2025.102097",
"url": "https://doi.org/10.1016/j.joule.2025.102097",
"journal": "Joule",
"year": 2025,
"authors": "Zhang, Y.; Lu, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "All-climate battery energy storage",
"doi": "10.1016/j.joule.2025.102178",
"url": "https://doi.org/10.1016/j.joule.2025.102178",
"journal": "Joule",
"year": 2025,
"authors": "Wang, C.; Qin, K.; Gupta, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "A “living photocatalyst” for solar-to-chemical energy conversion",
"doi": "10.1016/j.joule.2025.102129",
"url": "https://doi.org/10.1016/j.joule.2025.102129",
"journal": "Joule",
"year": 2025,
"authors": "Zhou, X.; Zhang, Z.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Surveying the potential of flexible and high-specific-power photovoltaic assemblies and arrays for space applications",
"doi": "10.1016/j.joule.2025.102194",
"url": "https://doi.org/10.1016/j.joule.2025.102194",
"journal": "Joule",
"year": 2025,
"authors": "Mejía Escobar, M.; Algora, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Sodium-air fuel cell for high energy density and low-cost electric power",
"doi": "10.1016/j.joule.2025.101962",
"url": "https://doi.org/10.1016/j.joule.2025.101962",
"journal": "Joule",
"year": 2025,
"authors": "Sugano, K.; Mair, S.; Ganti-Agrawal, S.; Friesen, A.; Raman, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "System impacts of wind energy developments: Key research challenges and opportunities",
"doi": "10.1016/j.joule.2024.11.016",
"url": "https://doi.org/10.1016/j.joule.2024.11.016",
"journal": "Joule",
"year": 2025,
"authors": "McKenna, R.; Lilliestam, J.; Heinrichs, H.; Weinand, J.; Schmidt, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Carbon storage portfolios for the transition to net zero",
"doi": "10.1016/j.joule.2025.102164",
"url": "https://doi.org/10.1016/j.joule.2025.102164",
"journal": "Joule",
"year": 2025,
"authors": "Hickey, C.; Jenkins, S.; Allen, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Toward solar light-driven photochemical carbon dioxide separation",
"doi": "10.1016/j.oneear.2025.101340",
"url": "https://doi.org/10.1016/j.oneear.2025.101340",
"journal": "One Earth",
"year": 2025,
"authors": "Ma, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Q&A with Shuchi Talati: Considering uncertainties in solar geoengineering",
"doi": "10.1016/j.oneear.2025.101242",
"url": "https://doi.org/10.1016/j.oneear.2025.101242",
"journal": "One Earth",
"year": 2025,
"authors": "Talati, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Imported solar photovoltaics contributed to health and climate benefits in the United States",
"doi": "10.1016/j.oneear.2025.101467",
"url": "https://doi.org/10.1016/j.oneear.2025.101467",
"journal": "One Earth",
"year": 2025,
"authors": "Qiu, M.; He, G.; Marcotullio, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Co-deploying biochar and bioenergy with carbon capture and storage improves cost-effectiveness and sustainability of China’s carbon neutrality",
"doi": "10.1016/j.oneear.2024.12.008",
"url": "https://doi.org/10.1016/j.oneear.2024.12.008",
"journal": "One Earth",
"year": 2025,
"authors": "Deng, X.; Teng, F.; Zhang, X.; Fan, J.; Forsell, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Long-duration energy storage in transmission-constrained variable renewable energy systems",
"doi": "10.1016/j.crsus.2024.100285",
"url": "https://doi.org/10.1016/j.crsus.2024.100285",
"journal": "Cell Reports Sustainability",
"year": 2025,
"authors": "Chu, A.; Baik, E.; Benson, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Sustainability trade-offs across modeled floating solar waterscapes of the Northeastern United States",
"doi": "10.1016/j.crsus.2025.100423",
"url": "https://doi.org/10.1016/j.crsus.2025.100423",
"journal": "Cell Reports Sustainability",
"year": 2025,
"authors": "Gallaher, A.; Kalies, E.; Grodsky, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Ratcheting up wind and solar targets for decarbonizing the power sector in China and beyond",
"doi": "10.1016/j.crsus.2025.100389",
"url": "https://doi.org/10.1016/j.crsus.2025.100389",
"journal": "Cell Reports Sustainability",
"year": 2025,
"authors": "Zhang, Z.; Zhu, Z.; Lu, X.; Zhang, D.; Davidson, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A global perspective on urban thermal environment: From satellite data to sustainable development",
"doi": "10.1016/j.crsus.2025.100522",
"url": "https://doi.org/10.1016/j.crsus.2025.100522",
"journal": "Cell Reports Sustainability",
"year": 2025,
"authors": "Zhang, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Continuous assessment of the factors driving the urban surface thermal environment in 1,469 cities worldwide",
"doi": "10.1016/j.crsus.2025.100463",
"url": "https://doi.org/10.1016/j.crsus.2025.100463",
"journal": "Cell Reports Sustainability",
"year": 2025,
"authors": "Yang, J.; Ren, J.; Creutzig, F.; Zhao, B.; Sun, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Distributed hydrogen production: Aluminum-water reactions offer a pathway to scalable, low-carbon power",
"doi": "10.1016/j.crsus.2025.100490",
"url": "https://doi.org/10.1016/j.crsus.2025.100490",
"journal": "Cell Reports Sustainability",
"year": 2025,
"authors": "Trowell, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Assessing the value of coupling thermal energy storage with air source heat pumps for residential space heating in US cities",
"doi": "10.1016/j.crsus.2025.100460",
"url": "https://doi.org/10.1016/j.crsus.2025.100460",
"journal": "Cell Reports Sustainability",
"year": 2025,
"authors": "Pham, A.; Kinzer, B.; Jain, R.; Chandran, R.; Craig, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Cost-reducing adiabatic compressed air energy storage for long duration energy-storage applications",
"doi": "10.1016/j.isci.2025.113967",
"url": "https://doi.org/10.1016/j.isci.2025.113967",
"journal": "iScience",
"year": 2025,
"authors": "Yang, D.; Wang, Y.; Wang, J.; Rui, Z.; He, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Quantifying the accelerated diffusion and cost savings of global solar photovoltaic supply chains",
"doi": "10.1016/j.isci.2024.111610",
"url": "https://doi.org/10.1016/j.isci.2024.111610",
"journal": "iScience",
"year": 2025,
"authors": "Chen, Z.; Gu, B.; Yu, D.; Wang, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Diversifying the solar photovoltaic supply chain to secure Europe’s energy and climate roadmap and sovereignty",
"doi": "10.1016/j.isci.2025.112751",
"url": "https://doi.org/10.1016/j.isci.2025.112751",
"journal": "iScience",
"year": 2025,
"authors": "Evans, M.; Grand, P.; Dupuis, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Optimal bandgap of a single-junction photovoltaic cell for the mobile Internet-of-Things",
"doi": "10.1016/j.isci.2024.111604",
"url": "https://doi.org/10.1016/j.isci.2024.111604",
"journal": "iScience",
"year": 2025,
"authors": "Jarosz, G.; Signerski, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Energy advancements and integration strategies in hydrogen and battery storage for renewable energy systems",
"doi": "10.1016/j.isci.2025.111945",
"url": "https://doi.org/10.1016/j.isci.2025.111945",
"journal": "iScience",
"year": 2025,
"authors": "Gulraiz, A.; Al Bastaki, A.; Magamal, K.; Subhi, M.; Hammad, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Toward understanding the complexity of long-duration energy storage siting in high renewable power grids",
"doi": "10.1016/j.isci.2025.112571",
"url": "https://doi.org/10.1016/j.isci.2025.112571",
"journal": "iScience",
"year": 2025,
"authors": "Cole, D.; Dalvi, S.; Zavala, V.; Guerra, O.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Resonant inelastic X-ray scattering for studying materials for renewable energy conversion and storage",
"doi": "10.1016/j.isci.2025.112820",
"url": "https://doi.org/10.1016/j.isci.2025.112820",
"journal": "iScience",
"year": 2025,
"authors": "Hong, R.; Xing, L.; Wu, M.; Chen, Z.; Wang, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Using electricity tariffs and thermal comfort management to promote residential energy decarbonization",
"doi": "10.1016/j.isci.2025.112631",
"url": "https://doi.org/10.1016/j.isci.2025.112631",
"journal": "iScience",
"year": 2025,
"authors": "Vecchi, A.; Brear, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Time-of-Use Pricing & Peak Demand",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Adaptive singular spectral decomposition hybrid framework with quadratic error correction for wind power prediction",
"doi": "10.1016/j.isci.2025.112360",
"url": "https://doi.org/10.1016/j.isci.2025.112360",
"journal": "iScience",
"year": 2025,
"authors": "Mai, C.; Zhang, L.; Behar, O.; Hu, X.; Chao, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "A novel axial-type wind harvester design with zero-voltage-threshold mechanical rectifier",
"doi": "10.1016/j.isci.2025.112737",
"url": "https://doi.org/10.1016/j.isci.2025.112737",
"journal": "iScience",
"year": 2025,
"authors": "Lu, H.; Zhuo, J.; Liu, J.; Liu, W.; Dong, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Resource substitutability path for China’s energy storage between lithium and vanadium",
"doi": "10.1016/j.isci.2025.112462",
"url": "https://doi.org/10.1016/j.isci.2025.112462",
"journal": "iScience",
"year": 2025,
"authors": "Zhu, Y.; Ye, X.; Ali, S.; Dou, S.; Cheng, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Electrodeposition of manganese oxide and poly(s-triazine) composites for aqueous electrochemical energy storage",
"doi": "10.1016/j.isci.2025.113406",
"url": "https://doi.org/10.1016/j.isci.2025.113406",
"journal": "iScience",
"year": 2025,
"authors": "Pei, S.; Lan, B.; Bai, X.; Yi, X.; Sun, H.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Exploring irradiated granular flows with rapid heating for concentrated solar thermal energy collection and storage",
"doi": "10.1016/j.isci.2025.112164",
"url": "https://doi.org/10.1016/j.isci.2025.112164",
"journal": "iScience",
"year": 2025,
"authors": "Jeong, S.; Ranjan, D.; Zhang, Z.; Loutzenhiser, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A photovoltaic-electrolysis system with high solar-to-hydrogen efficiency under practical current densities",
"doi": "10.1126/sciadv.ads0836",
"url": "https://doi.org/10.1126/sciadv.ads0836",
"journal": "Science Advances",
"year": 2025,
"authors": "Zhang, Q.; Shan, Y.; Pan, J.; Kumar, P.; Keevers, M.",
"abstract": "\n The photovoltaic-alkaline water (PV-AW) electrolysis system offers an appealing approach for large-scale green hydrogen generation. However, current PV-AW systems suffer from low solar-to-hydrogen (STH) conversion efficiencies (e.g., <20%) at practical current densities (e.g., >100 mA cm\n −2\n ), rendering the produced H\n 2\n not economical. Here, we designed and developed a highly efficient PV-AW system that mainly consists of a custo",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Ultrafast energy transfer beyond the Förster approximation in organic photovoltaic blends with non-fullerene acceptors",
"doi": "10.1126/sciadv.adr5973",
"url": "https://doi.org/10.1126/sciadv.adr5973",
"journal": "Science Advances",
"year": 2025,
"authors": "Ouyang, Y.; Wang, R.; Wang, X.; Xiao, M.; Zhang, C.",
"abstract": "Recent studies on organic photovoltaic (OPV) systems have highlighted the critical role of energy transfer in excited-state dynamics. This process has traditionally been explained through the model of long-range Förster resonance energy transfer (FRET). In this study, we demonstrate a donor-to-acceptor short-range energy transfer (SRET) mechanism in OPV blends with non-fullerene acceptors, extending beyond the Förster approximation. This SRET occurs as a two-step process mediated by interfacial ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "The role of offshore wind and solar PV resources in global low-carbon transition",
"doi": "10.1126/sciadv.adx5580",
"url": "https://doi.org/10.1126/sciadv.adx5580",
"journal": "Science Advances",
"year": 2025,
"authors": "Wen, Y.; Wu, J.; Lin, P.; Low, Y.",
"abstract": "\n With challenges such as land availability and regulatory constraints, offshore renewable energy sector is poised to play a pivotal role in the transition to a low-carbon future. Among offshore technologies, wind and solar photovoltaic (PV) have emerged as the most promising solutions. However, a global assessment of offshore resources, particularly solar PV, remains lacking. Hence, we identify suitable areas for offshore wind and solar PV development on the basis of economic",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Soil carbon formation is promoted by saturation deficit and existing mineral-associated carbon, not by microbial carbon-use efficiency",
"doi": "10.1126/sciadv.adv9482",
"url": "https://doi.org/10.1126/sciadv.adv9482",
"journal": "Science Advances",
"year": 2025,
"authors": "King, A.; Sokol, N.",
"abstract": "Mineral-associated organic carbon (MAOC) is the largest terrestrial pool of organic carbon, yet controls on its formation remain unresolved. Existing MAOC is thought to preclude additional C storage on minerals, but this perspective is difficult to reconcile with observations that MAOC stacks in multilayers, suggesting that existing MAOC could promote greater C retention. Here, in a manipulative experiment using 118 soils from 15 agricultural sites across the United States, we show that MAOC for",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Quantifying effects of solar power adoption on CO\n 2\n emissions reduction",
"doi": "10.1126/sciadv.adq5660",
"url": "https://doi.org/10.1126/sciadv.adq5660",
"journal": "Science Advances",
"year": 2025,
"authors": "Biswas, A.; Qiu, M.; Braun, D.; Dominici, F.; Mork, D.",
"abstract": "\n We quantify the effect of solar power adoption in reducing carbon dioxide (CO\n 2\n ) emissions from the US electricity sector using 5 years of Energy Information Administration data, starting 1 July 2018. By tailoring a distributed lag statistical model, we estimate the immediate and time-lagged effects of increased solar generation on reducing CO\n 2\n emissions within a region. Our analysis highlights how solar adoption in one region affect",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Spatiotemporal toughness modulation in hydrogels through on-demand cross-linking",
"doi": "10.1126/sciadv.adz0440",
"url": "https://doi.org/10.1126/sciadv.adz0440",
"journal": "Science Advances",
"year": 2025,
"authors": "Lee, J.; Castilho, R.; Nam, S.",
"abstract": "\n Tough hydrogels are promising for soft robotics, bioelectronics, and tissue adhesives due to their exceptional resilience and biocompatibility, yet precise spatiotemporal control of their mechanics remains challenging. Here, we present a hydrogel platform that enables spatiotemporal modulation of toughness through a latent ionic cross-linking mechanism. By embedding calcium carbonate (CaCO\n 3\n ) microparticles in alginate/polyacrylamide double-network hydrogels",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Nanoseed-based physically unclonable function for on-demand encryption",
"doi": "10.1126/sciadv.adt7527",
"url": "https://doi.org/10.1126/sciadv.adt7527",
"journal": "Science Advances",
"year": 2025,
"authors": "Ahn, J.; Park, T.; Kang, T.; Im, S.; Seo, H.",
"abstract": "\n A physically unclonable function (PUF) is a promising hardware-based cryptographic primitive to prevent confidential information leakage. However, conventional techniques, such as weak and strong PUFs, have limitations in overcoming the trade-off between security and storage volume. This study introduces nanoseed-based PUFs that overcome the drawbacks of conventional PUFs using optical and electrical randomness originated from nanoseeds and a unique on-demand cryptographic algorithm",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Large-area radiation-modulated thermoelectric fabrics for high-performance thermal management and electricity generation",
"doi": "10.1126/sciadv.adr2158",
"url": "https://doi.org/10.1126/sciadv.adr2158",
"journal": "Science Advances",
"year": 2025,
"authors": "Liu, J.; Jiang, W.; Zhuo, S.; Rong, Y.; Li, Y.",
"abstract": "\n Flexible thermoelectric systems capable of converting human body heat or solar heat into sustainable electricity are crucial for the development of self-powered wearable electronics. However, challenges persist in maintaining a stable temperature gradient and enabling scalable fabrication for their commercialization. Herein, we present a facile approach involving the screen printing of large-scale carbon nanotube (CNT)–based thermoelectric arrays on conventional textile. These array",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Volcanic emission of reduced sulfur species shaped the climate of early Mars",
"doi": "10.1126/sciadv.adr9635",
"url": "https://doi.org/10.1126/sciadv.adr9635",
"journal": "Science Advances",
"year": 2025,
"authors": "Bellino, L.; Sun, C.",
"abstract": "\n Sulfur and other volatiles could be transported from the martian interior to surface through magmatic processes, including mantle melting, magma differentiation, and degassing. However, these processes were not fully integrated in past sulfur cycling models because of complexity from the gas-melt interactions in chemically and dynamically evolving magmatic systems with multicomponent volatiles. Here, we incorporate these processes to simulate how sulfur, carbon, and hydrogen degas f",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Experimental characterization of complex atmospheric flows: A wind turbine wake case study",
"doi": "10.1126/sciadv.adw8524",
"url": "https://doi.org/10.1126/sciadv.adw8524",
"journal": "Science Advances",
"year": 2025,
"authors": "Angelou, N.; Sjöholm, M.; Mikkelsen, T.",
"abstract": "Our current understanding of the interaction between the atmosphere and surface obstacles crucial for boundary-layer meteorology, forestry, urban climate, wind engineering, and wind energy is limited mainly to observations acquired in wind tunnel experiments and flow predictions from computational fluid dynamic models. Here, as a case study, we present spatially distributed measurements of a utility-scale wind turbine’s wake using three wind lidars that synchronously scan a volume of the atmosph",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Sea surface warming and ocean-to-atmosphere feedback driven by large-scale offshore wind farms under seasonally stratified conditions",
"doi": "10.1126/sciadv.adw7603",
"url": "https://doi.org/10.1126/sciadv.adw7603",
"journal": "Science Advances",
"year": 2025,
"authors": "Seo, H.; Sauvage, C.; Renkl, C.; Lundquist, J.; Kirincich, A.",
"abstract": "Offshore wind farms may induce changes in the upper ocean and near-surface atmosphere through coupled ocean-atmosphere feedbacks. Yet, the role of air-sea interactions mediated by offshore wind farms remains poorly understood. Using fully coupled ocean-atmosphere-wave model simulations for seasonally stratified conditions along the US East Coast, we show that simulated cumulative reductions in wind stress due to large-scale wind farm clusters lead to sea surface warming of 0.3° to 0.4°C and a sh",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Flash annealing–engineered wafer-scale relaxor antiferroelectrics for enhanced energy storage performance",
"doi": "10.1126/sciadv.ady2349",
"url": "https://doi.org/10.1126/sciadv.ady2349",
"journal": "Science Advances",
"year": 2025,
"authors": "Li, Y.; Song, K.; Zhu, M.; Li, X.; Zeng, Z.",
"abstract": "\n Dielectric capacitors are essential for energy storage systems because of their high-power density and fast operation speed. However, optimizing energy storage density with concurrent thermal stability remains a substantial challenge. Here, we develop a flash annealing process with ultrafast heating and cooling rates of 1000°C per second, which facilitates the rapid crystallization of PbZrO\n 3\n film within a mere second, while locking it",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Ppp1r3b\n is a metabolic switch that shifts hepatic energy storage from lipid to glycogen",
"doi": "10.1126/sciadv.ado3440",
"url": "https://doi.org/10.1126/sciadv.ado3440",
"journal": "Science Advances",
"year": 2025,
"authors": "Creasy, K.; Mehta, M.; Schneider, C.; Park, J.; Zhang, D.",
"abstract": "\n The\n PPP1R3B\n gene, encoding PPP1R3B protein, is critical for liver glycogen synthesis and maintaining blood glucose levels. Genetic variants affecting\n PPP1R3B\n expression are associated with several metabolic traits and liver disease, but the precise mechanisms are not fully understood. We studied the effects of both\n Ppp1r3b\n overexpression and deletion in mic",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Atomic Sn–incorporated subnanopore-rich hard carbon host for highly reversible quasi-metallic Li storage",
"doi": "10.1126/sciadv.ads6483",
"url": "https://doi.org/10.1126/sciadv.ads6483",
"journal": "Science Advances",
"year": 2025,
"authors": "Jin, T.; Zhang, X.; Yuan, S.; Yu, L.",
"abstract": "\n The practical application of Li metal anodes has been hindered by severely irreversible side reactions for low Coulombic efficiency, uncontrollable growth of Li dendrites, and large volume change. Herein, we report subnanopore-rich carbon spheres encapsulated with Sn single atoms (Sn/CS@SC) as a Li host to address these challenges. Owing to the high Li affinity of Sn single atoms, Sn/CS@SC can promote storage of quasi-metallic Li within the inner void space other than direct plating",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "The potential of wastewater treatment on carbon storage through ocean alkalinity enhancement",
"doi": "10.1126/sciadv.ads0313",
"url": "https://doi.org/10.1126/sciadv.ads0313",
"journal": "Science Advances",
"year": 2025,
"authors": "Zheng, L.; Hu, Y.; Su, B.; Chen, Q.; Liu, J.",
"abstract": "\n Ocean alkalinity enhancement (OAE) implemented through wastewater treatment plants increases the alkalinity of the effluents and discharges them into the ocean, referred to as wastewater-based OAE. However, the alkalization capability and its carbon storage stability when adding alkaline minerals to wastewater treatment are uncertain. In this study, total alkalinity was enhanced to more than 10 millimoles per kilogram and phosphate removal was improved when we added olivine to waste",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Crustal to mantle melt storage during the evolution of Hawaiian volcanoes",
"doi": "10.1126/sciadv.adu9332",
"url": "https://doi.org/10.1126/sciadv.adu9332",
"journal": "Science Advances",
"year": 2025,
"authors": "Gazel, E.; Dayton, K.; Liang, W.; Hua, J.; Lynn, K.",
"abstract": "As the Pacific Plate migrates over the mantle plume below Hawaiʻi, magma flux decreases, resulting in changes in eruptive volume, style, and composition. It is thought that melt storage becomes deeper and ephemeral with the transition from highly voluminous tholeiitic (shield stage) to the less voluminous alkaline (post-shield and rejuvenation stages) magmatism. To quantitatively test this, we applied high-precision fluid inclusion barometry via Raman spectroscopy to samples from representative ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Robust increase in observed heat storage by the global subsurface",
"doi": "10.1126/sciadv.adw9958",
"url": "https://doi.org/10.1126/sciadv.adw9958",
"journal": "Science Advances",
"year": 2025,
"authors": "Cuesta-Valero, F.; García-García, A.; Beltrami, H.; García-Pereira, F.; González-Rouco, J.",
"abstract": "Changes in heat storage within the different components of the climate system alter physical and biogeochemical phenomena relevant for human societies and ecosystems. Among such processes, permafrost thawing, soil carbon storage, and surface energy exchanges depend on the persistent heat gain by the continental subsurface. Nevertheless, there are not enough data to estimate ground heat storage at the global scale after the year 2000. We solve this problem by expanding the database of geothermal ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A compact cassette tape for DNA-based data storage",
"doi": "10.1126/sciadv.ady3406",
"url": "https://doi.org/10.1126/sciadv.ady3406",
"journal": "Science Advances",
"year": 2025,
"authors": "Li, J.; Mao, C.; Wang, S.; Li, X.; Luo, X.",
"abstract": "\n DNA with high storage density can serve as an alternative storage medium to respond to the global explosion of data growth and become a powerful personal storage memory if an integrated compact device can store and handle large-scale data. Here, we incorporate a DNA cassette tape with 5.5 × 10\n 5\n addressable data partitions (addressing rate up to 1570 partitions per second), a DNA loading capacity of 28.6 mg per kilometer, and deposit-many-recover-many (DMRM) ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Vectorized solar photovoltaic installation dataset across China in 2015 and 2020",
"doi": "10.1038/s41597-024-04356-z",
"url": "https://doi.org/10.1038/s41597-024-04356-z",
"journal": "Scientific Data",
"year": 2024,
"authors": "Liu, J.; Wang, J.; Li, L.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A Multi-Decadal Hourly Coincident Wind and Solar Power Production Dataset for the Contiguous United States",
"doi": "10.1038/s41597-024-03894-w",
"url": "https://doi.org/10.1038/s41597-024-03894-w",
"journal": "Scientific Data",
"year": 2024,
"authors": "Campbell, A.; Bracken, C.; Underwood, S.; Voisin, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A high-resolution satellite-based solar-induced chlorophyll fluorescence dataset for China from 2000 to 2022",
"doi": "10.1038/s41597-024-04101-6",
"url": "https://doi.org/10.1038/s41597-024-04101-6",
"journal": "Scientific Data",
"year": 2024,
"authors": "Tao, S.; Chen, J.; Zhang, Z.; Zhang, Y.; Ju, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Intra-Individual Paired Mass Spectrometry Dataset for Decoding Solar-Induced Proteomic Changes in Facial Skin",
"doi": "10.1038/s41597-024-03231-1",
"url": "https://doi.org/10.1038/s41597-024-03231-1",
"journal": "Scientific Data",
"year": 2024,
"authors": "Camillo-Andrade, A.; Santos, M.; Nuevo, P.; Lajas, A.; Sales, L.",
"abstract": "AbstractPhotoaging is the premature aging of the skin caused by prolonged exposure to solar radiation. The visual alterations manifest as wrinkles, reduced skin elasticity, uneven skin tone, as well as other signs that surpass the expected outcomes of natural aging. Beyond these surface changes, there is a complex interplay of molecular alterations, encompassing shifts in cellular function, DNA damage, and protein composition disruptions. This data descriptor introduces a unique dataset derived ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A thermosurvey dataset: Older adults’ experiences and adaptation to urban heat and climate change",
"doi": "10.1038/s41597-024-03509-4",
"url": "https://doi.org/10.1038/s41597-024-03509-4",
"journal": "Scientific Data",
"year": 2024,
"authors": "Jancewicz, B.; Wrotek, M.",
"abstract": "AbstractWe introduce the thermosurvey dataset, a comprehensive collection focusing on the thermal comfort, heat-related experiences, health, socioeconomic status, and perceptions of older adults (aged 65 and over) in Warsaw and Madrid. The two cities differ greatly in their heat experiences, but due to climate change, both face increasing temperatures. The study aimed to understand how heat affects cities’ older adult population and how we can better adapt to rising temperatures. We call the stu",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Comprehensive Dataset on Electrical Load Profiles for Energy Community in Ireland",
"doi": "10.1038/s41597-024-03454-2",
"url": "https://doi.org/10.1038/s41597-024-03454-2",
"journal": "Scientific Data",
"year": 2024,
"authors": "Trivedi, R.; Bahloul, M.; Saif, A.; Patra, S.; Khadem, S.",
"abstract": "AbstractThis paper describes a comprehensive energy-related dataset, collected from residential electricity households within an energy community in Ireland, as part of StoreNet project. The data includes local weather parameters and per household power (W) and energy (Wh) components for various aspects such as active power consumption, PV generation, grid import and export, charging and discharging, and the state of charge of energy storage. Additionally, it provides weather data for the locati",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Wind turbine condition monitoring dataset of Fraunhofer LBF",
"doi": "10.1038/s41597-024-03934-5",
"url": "https://doi.org/10.1038/s41597-024-03934-5",
"journal": "Scientific Data",
"year": 2024,
"authors": "Mostafavi, A.; Friedmann, A.",
"abstract": "AbstractFraunhofer wind turbine dataset contains monitoring data from a 750 W wind turbine, including accelerometers and tachometer, to capture structural response, bearing vibrations and rotational velocity. Additionally, temperatures, wind speed and wind direction have been measured, while weather conditions have been acquired from selected sources. Various damage scenarios, including mass imbalance, and aerodynamic imbalance as well as damages on bearings’ outer race, inner race and roller el",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "A dataset of global tropical cyclone wind and surface wave measurements from buoy and satellite platforms",
"doi": "10.1038/s41597-024-02955-4",
"url": "https://doi.org/10.1038/s41597-024-02955-4",
"journal": "Scientific Data",
"year": 2024,
"authors": "Tamizi, A.; Young, I.",
"abstract": "AbstractThere are now a range of potential data sources for wind and surface wave conditions within tropical cyclones. These sources include: in situ buoy data and remote sensing data from satellite altimeters, scatterometers, and radiometers. In addition, data providing estimates of tropical cyclone tracks and wind field parameters are available from best track archives. The present dataset brings together this information in a single archive, providing the available data for each tropical cycl",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "SDWPF: A Dataset for Spatial Dynamic Wind Power Forecasting over a Large Turbine Array",
"doi": "10.1038/s41597-024-03427-5",
"url": "https://doi.org/10.1038/s41597-024-03427-5",
"journal": "Scientific Data",
"year": 2024,
"authors": "Zhou, J.; Lu, X.; Xiao, Y.; Tang, J.; Su, J.",
"abstract": "AbstractWind power is a clean and renewable energy, yet it poses integration challenges to the grid due to its variable nature. Thus, Wind Power Forecasting (WPF) is crucial for its successful integration. However, existing WPF datasets often cover only a limited number of turbines and lack detailed information. To bridge this gap and advance WPF research, we introduce the Spatial Dynamic Wind Power Forecasting dataset (SDWPF). The SDWPF dataset not only provides information on power generation ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Wind & Other Renewables"
},
{
"title": "A global multi catchment and multi dataset synthesis for water fluxes and storage changes on land",
"doi": "10.1038/s41597-024-04203-1",
"url": "https://doi.org/10.1038/s41597-024-04203-1",
"journal": "Scientific Data",
"year": 2024,
"authors": "Zarei, M.; Destouni, G.",
"abstract": "AbstractWater on land is essential for all societal, ecosystem, and planetary health aspects and conditions, and all life as we know it. Many disciplines consider and model similar terrestrial water phenomena and processes, but comparisons and consistent validations are lacking for the datasets used by various science communities for different world parts, scales, and applications. Here, we present a new global data synthesis that includes and harmonises four comparative datasets for main terres",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Remotely sensed above-ground storage tank dataset for object detection and infrastructure assessment",
"doi": "10.1038/s41597-023-02780-1",
"url": "https://doi.org/10.1038/s41597-023-02780-1",
"journal": "Scientific Data",
"year": 2024,
"authors": "Robinson, C.; Bradbury, K.; Borsuk, M.",
"abstract": "AbstractRemotely sensed imagery has increased dramatically in quantity and public availability. However, automated, large-scale analysis of such imagery is hindered by a lack of the annotations necessary to train and test machine learning algorithms. In this study, we address this shortcoming with respect to above-ground storage tanks (ASTs) that are used in a wide variety of industries. We annotated available high-resolution, remotely sensed imagery to develop an original, publicly available mu",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Combining photovoltaic elements",
"doi": "10.1038/s41560-024-01647-y",
"url": "https://doi.org/10.1038/s41560-024-01647-y",
"journal": "Nature Energy",
"year": 2024,
"authors": "Tregnago, G.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Community solar reaches adopters underserved by rooftop solar",
"doi": "10.1038/s41560-024-01575-x",
"url": "https://doi.org/10.1038/s41560-024-01575-x",
"journal": "Nature Energy",
"year": 2024,
"authors": "O’Shaughnessy, E.; Barbose, G.; Kannan, S.; Sumner, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Self-cleaning solar evaporation",
"doi": "10.1038/s41560-024-01594-8",
"url": "https://doi.org/10.1038/s41560-024-01594-8",
"journal": "Nature Energy",
"year": 2024,
"authors": "Zhang, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Ultralightweight perovskite solar cells for use in drones",
"doi": "10.1038/s41560-024-01504-y",
"url": "https://doi.org/10.1038/s41560-024-01504-y",
"journal": "Nature Energy",
"year": 2024,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Assessing the emissions impact of grid-connected hydrogen production",
"doi": "10.1038/s41560-023-01445-y",
"url": "https://doi.org/10.1038/s41560-023-01445-y",
"journal": "Nature Energy",
"year": 2024,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Exploring the cost and emissions impacts, feasibility and scalability of battery electric ships",
"doi": "10.1038/s41560-024-01655-y",
"url": "https://doi.org/10.1038/s41560-024-01655-y",
"journal": "Nature Energy",
"year": 2024,
"authors": "Moon, H.; Park, W.; Hendrickson, T.; Phadke, A.; Popovich, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "The influence of additionality and time-matching requirements on the emissions from grid-connected hydrogen production",
"doi": "10.1038/s41560-023-01435-0",
"url": "https://doi.org/10.1038/s41560-023-01435-0",
"journal": "Nature Energy",
"year": 2024,
"authors": "Giovanniello, M.; Cybulsky, A.; Schittekatte, T.; Mallapragada, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Worldwide greenhouse gas emissions of green hydrogen production and transport",
"doi": "10.1038/s41560-024-01563-1",
"url": "https://doi.org/10.1038/s41560-024-01563-1",
"journal": "Nature Energy",
"year": 2024,
"authors": "de Kleijne, K.; Huijbregts, M.; Knobloch, F.; van Zelm, R.; Hilbers, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Publisher Correction: The influence of additionality and time-matching requirements on the emissions from grid-connected hydrogen production",
"doi": "10.1038/s41560-024-01475-0",
"url": "https://doi.org/10.1038/s41560-024-01475-0",
"journal": "Nature Energy",
"year": 2024,
"authors": "Giovanniello, M.; Cybulsky, A.; Schittekatte, T.; Mallapragada, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Weather conditions linked to energy droughts in electricity systems with hydropower",
"doi": "10.1038/s41560-024-01641-4",
"url": "https://doi.org/10.1038/s41560-024-01641-4",
"journal": "Nature Energy",
"year": 2024,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "The role of flexible geothermal power in decarbonized electricity systems",
"doi": "10.1038/s41560-023-01437-y",
"url": "https://doi.org/10.1038/s41560-023-01437-y",
"journal": "Nature Energy",
"year": 2024,
"authors": "Ricks, W.; Voller, K.; Galban, G.; Norbeck, J.; Jenkins, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A geographically disaggregated approach to integrate low-carbon technologies across local electricity networks",
"doi": "10.1038/s41560-024-01542-6",
"url": "https://doi.org/10.1038/s41560-024-01542-6",
"journal": "Nature Energy",
"year": 2024,
"authors": "Few, S.; Djapic, P.; Strbac, G.; Nelson, J.; Candelise, C.",
"abstract": "Abstract\n Meeting climate targets requires widespread deployment of low-carbon technologies such as distributed photovoltaics, heat pumps and electric vehicles. Without mitigating actions, changing power flows associated with these technologies would adversely impact some local networks. The extent of these impacts, and the optimal means of avoiding them, remains unclear. Here we use local-level data and network simulation to estimate variation in future network upgrade costs in",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Increasing the resilience of the Texas power grid against extreme storms by hardening critical lines",
"doi": "10.1038/s41560-023-01434-1",
"url": "https://doi.org/10.1038/s41560-023-01434-1",
"journal": "Nature Energy",
"year": 2024,
"authors": "Stürmer, J.; Plietzsch, A.; Vogt, T.; Hellmann, F.; Kurths, J.",
"abstract": "AbstractThe Texas power grid on the Gulf Coast of the United States is frequently hit by tropical cyclones (TCs) causing widespread power outages, a risk that is expected to substantially increase under global warming. Here we introduce a new approach that combines a probabilistic line failure model with a network model of the Texas grid to simulate the spatio-temporal co-evolution of wind-induced failures of high-voltage transmission lines and the resulting cascading power outages from seven ma",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "US industrial policy may reduce electric vehicle battery supply chain vulnerabilities and influence technology choice",
"doi": "10.1038/s41560-024-01649-w",
"url": "https://doi.org/10.1038/s41560-024-01649-w",
"journal": "Nature Energy",
"year": 2024,
"authors": "Cheng, A.; Fuchs, E.; Michalek, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Industry needs for practical lithium-metal battery designs in electric vehicles",
"doi": "10.1038/s41560-024-01624-5",
"url": "https://doi.org/10.1038/s41560-024-01624-5",
"journal": "Nature Energy",
"year": 2024,
"authors": "He, M.; Hector, L.; Dai, F.; Xu, F.; Kolluri, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Wind power and solar photovoltaics found to have higher energy returns than fossil fuels",
"doi": "10.1038/s41560-024-01520-y",
"url": "https://doi.org/10.1038/s41560-024-01520-y",
"journal": "Nature Energy",
"year": 2024,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A wind of change in sustainability",
"doi": "10.1038/s41560-024-01666-9",
"url": "https://doi.org/10.1038/s41560-024-01666-9",
"journal": "Nature Energy",
"year": 2024,
"authors": "Guo, Y.; Miao, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Economic potential of wind and solar in American Indian communities",
"doi": "10.1038/s41560-024-01617-4",
"url": "https://doi.org/10.1038/s41560-024-01617-4",
"journal": "Nature Energy",
"year": 2024,
"authors": "Parker, D.; Johnston, S.; Leonard, B.; Stewart, D.; Winikoff, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Artificial intelligence-aided wind plant optimization for nationwide evaluation of land use and economic benefits of wake steering",
"doi": "10.1038/s41560-024-01516-8",
"url": "https://doi.org/10.1038/s41560-024-01516-8",
"journal": "Nature Energy",
"year": 2024,
"authors": "Harrison-Atlas, D.; Glaws, A.; King, R.; Lantz, E.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Capacity estimation of home storage systems using field data",
"doi": "10.1038/s41560-024-01662-z",
"url": "https://doi.org/10.1038/s41560-024-01662-z",
"journal": "Nature Energy",
"year": 2024,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Sub-nano fillers for high-temperature storage",
"doi": "10.1038/s41560-023-01446-x",
"url": "https://doi.org/10.1038/s41560-023-01446-x",
"journal": "Nature Energy",
"year": 2024,
"authors": "Singh, M.; Tiwary, S.; Karim, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Vertical iontronic energy storage based on osmotic effects and electrode redox reactions",
"doi": "10.1038/s41560-023-01431-4",
"url": "https://doi.org/10.1038/s41560-023-01431-4",
"journal": "Nature Energy",
"year": 2024,
"authors": "Yang, F.; Peng, P.; Yan, Z.; Fan, H.; Li, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Hydrogen storage and geo-methanation in a depleted underground hydrocarbon reservoir",
"doi": "10.1038/s41560-024-01458-1",
"url": "https://doi.org/10.1038/s41560-024-01458-1",
"journal": "Nature Energy",
"year": 2024,
"authors": "Hellerschmied, C.; Schritter, J.; Waldmann, N.; Zaduryan, A.; Rachbauer, L.",
"abstract": "AbstractCoupling of power-to-gas processes with underground gas storage could effectively allow surplus electricity to be stored for later use. Depleted hydrocarbon reservoirs could be used as stores, but practical experience of hydrogen storage in such sites is limited. Here we present data from a field trial that stored 119,353 m3 of hydrogen admixed to natural gas in a depleted hydrocarbon reservoir. After 285 days, hydrogen recovery was 84.3%, indicating the process’s technical feasibility. ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Multi-year field measurements of home storage systems and their use in capacity estimation",
"doi": "10.1038/s41560-024-01620-9",
"url": "https://doi.org/10.1038/s41560-024-01620-9",
"journal": "Nature Energy",
"year": 2024,
"authors": "Figgener, J.; van Ouwerkerk, J.; Haberschusz, D.; Bors, J.; Woerner, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Machine learning-accelerated discovery of heat-resistant polysulfates for electrostatic energy storage",
"doi": "10.1038/s41560-024-01670-z",
"url": "https://doi.org/10.1038/s41560-024-01670-z",
"journal": "Nature Energy",
"year": 2024,
"authors": "Li, H.; Zheng, H.; Yue, T.; Xie, Z.; Yu, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Large-scale spatially explicit analysis of carbon capture at cellulosic biorefineries",
"doi": "10.1038/s41560-024-01532-8",
"url": "https://doi.org/10.1038/s41560-024-01532-8",
"journal": "Nature Energy",
"year": 2024,
"authors": "O’Neill, E.; Geissler, C.; Maravelias, C.",
"abstract": "AbstractThe large-scale production of cellulosic biofuels would involve spatially distributed systems including biomass fields, logistics networks and biorefineries. Better understanding of the interactions between landscape-related decisions and the design of biorefineries with carbon capture and storage (CCS) in a supply chain context is needed to enable efficient systems. Here we analyse the cost and greenhouse gas mitigation potential for cellulosic biofuel supply chains in the US Midwest us",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Geospatial variation in carbon accounting of hydrogen production and implications for the US Inflation Reduction Act",
"doi": "10.1038/s41560-024-01653-0",
"url": "https://doi.org/10.1038/s41560-024-01653-0",
"journal": "Nature Energy",
"year": 2024,
"authors": "Vallejo, V.; Nguyen, Q.; Ravikumar, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "EnergiTrade",
"subcategory": "Carbon Asset Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Author Correction: Global scenarios for significant water use reduction in thermal power plants based on cooling water demand estimation using satellite imagery",
"doi": "10.1038/s41560-024-01700-w",
"url": "https://doi.org/10.1038/s41560-024-01700-w",
"journal": "Nature Energy",
"year": 2024,
"authors": "Lohrmann, A.; Farfan, J.; Caldera, U.; Lohrmann, C.; Breyer, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Rethinking energy planning to mitigate the impacts of African hydropower",
"doi": "10.1038/s41893-024-01367-x",
"url": "https://doi.org/10.1038/s41893-024-01367-x",
"journal": "Nature Sustainability",
"year": 2024,
"authors": "Carlino, A.; Schmitt, R.; Clark, A.; Castelletti, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Large-scale green grabbing for wind and solar photovoltaic development in Brazil",
"doi": "10.1038/s41893-024-01346-2",
"url": "https://doi.org/10.1038/s41893-024-01346-2",
"journal": "Nature Sustainability",
"year": 2024,
"authors": "Klingler, M.; Ameli, N.; Rickman, J.; Schmidt, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Molecular engineering of renewable cellulose biopolymers for solid-state battery electrolytes",
"doi": "10.1038/s41893-024-01414-7",
"url": "https://doi.org/10.1038/s41893-024-01414-7",
"journal": "Nature Sustainability",
"year": 2024,
"authors": "Li, J.; Hu, Z.; Zhang, S.; Zhang, H.; Guo, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Tri-band electrochromic smart window for energy savings in buildings",
"doi": "10.1038/s41893-024-01349-z",
"url": "https://doi.org/10.1038/s41893-024-01349-z",
"journal": "Nature Sustainability",
"year": 2024,
"authors": "Shao, Z.; Huang, A.; Cao, C.; Ji, X.; Hu, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Offsetting the greenhouse gas footprint of hydropower with floating solar photovoltaics",
"doi": "10.1038/s41893-024-01384-w",
"url": "https://doi.org/10.1038/s41893-024-01384-w",
"journal": "Nature Sustainability",
"year": 2024,
"authors": "Almeida, R.; Chowdhury, A.; Rodrigo, H.; Li, M.; Schmitt, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Accurate nowcasting of cloud cover at solar photovoltaic plants using geostationary satellite images",
"doi": "10.1038/s41467-023-44666-1",
"url": "https://doi.org/10.1038/s41467-023-44666-1",
"journal": "Nature Communications",
"year": 2024,
"authors": "Xia, P.; Zhang, L.; Min, M.; Li, J.; Wang, Y.",
"abstract": "Abstract\n Accurate nowcasting for cloud fraction is still intractable challenge for stable solar photovoltaic electricity generation. By combining continuous radiance images measured by geostationary satellite and an advanced recurrent neural network, we develop a nowcasting algorithm for predicting cloud fraction at the leading time of 0–4 h at photovoltaic plants. Based on this algorithm, a cyclically updated prediction system is also established and tested at five photovoltai",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Transparent integrated pyroelectric-photovoltaic structure for photo-thermo hybrid power generation",
"doi": "10.1038/s41467-024-47483-2",
"url": "https://doi.org/10.1038/s41467-024-47483-2",
"journal": "Nature Communications",
"year": 2024,
"authors": "Patel, M.; Park, H.; Bhatnagar, P.; Kumar, N.; Lee, J.",
"abstract": "AbstractThermal losses in photoelectric devices limit their energy conversion efficiency, and cyclic input of energy coupled with pyroelectricity can overcome this limit. Here, incorporating a pyroelectric absorber into a photovoltaic heterostructure device enables efficient electricity generation by leveraging spontaneous polarization based on pulsed light-induced thermal changes. The proposed pyroelectric-photovoltaic device outperforms traditional photovoltaic devices by 2.5 times due to the ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Giant intrinsic photovoltaic effect in one-dimensional van der Waals grain boundaries",
"doi": "10.1038/s41467-024-44792-4",
"url": "https://doi.org/10.1038/s41467-024-44792-4",
"journal": "Nature Communications",
"year": 2024,
"authors": "Zhou, Y.; Zhou, X.; Yu, X.; Liang, Z.; Zhao, X.",
"abstract": "AbstractThe photovoltaic effect lies at the heart of eco-friendly energy harvesting. However, the conversion efficiency of traditional photovoltaic effect utilizing the built-in electric effect in p-n junctions is restricted by the Shockley-Queisser limit. Alternatively, intrinsic/bulk photovoltaic effect (IPVE/BPVE), a second-order nonlinear optoelectronic effect arising from the broken inversion symmetry of crystalline structure, can overcome this theoretical limit. Here, we uncover giant and ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Switchable unidirectional emissions from hydrogel gratings with integrated carbon quantum dots",
"doi": "10.1038/s41467-024-45284-1",
"url": "https://doi.org/10.1038/s41467-024-45284-1",
"journal": "Nature Communications",
"year": 2024,
"authors": "Dai, C.; Wan, S.; Li, Z.; Shi, Y.; Zhang, S.",
"abstract": "AbstractDirectional emission of photoluminescence despite its incoherence is an attractive technique for light-emitting fields and nanophotonics. Optical metasurfaces provide a promising route for wavefront engineering at the subwavelength scale, enabling the feasibility of unidirectional emission. However, current directional emission strategies are mostly based on static metasurfaces, and it remains a challenge to achieve unidirectional emissions tuning with high performance. Here, we demonstr",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Quantifying benefits of renewable investments for German residential Prosumers in times of volatile energy markets",
"doi": "10.1038/s41467-024-51967-6",
"url": "https://doi.org/10.1038/s41467-024-51967-6",
"journal": "Nature Communications",
"year": 2024,
"authors": "van Ouwerkerk, J.; Celi Cortés, M.; Nsir, N.; Gong, J.; Figgener, J.",
"abstract": "Abstract\n \n The COVID-19 pandemic and the Russian invasion of Ukraine have led to unseen disruptions in the global energy markets since the end of 2021. Residential renewable investments like photovoltaic systems, battery home storage systems, and heat pumps are therefore gaining traction. However, the benefits of those technologies during the energy crisis and beyond have not been fully quantified yet. Therefore, in this study, we benchmark renewable investme",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Household alternating current electricity plug-and-play quantum-dot light-emitting diodes",
"doi": "10.1038/s41467-024-47891-4",
"url": "https://doi.org/10.1038/s41467-024-47891-4",
"journal": "Nature Communications",
"year": 2024,
"authors": "Wang, J.; Yuan, C.; Chen, S.",
"abstract": "AbstractAs an intrinsically direct current device, quantum-dot LED cannot be directly driven by household alternating current electricity. Thus, a driver circuit is required, which increases the complexity and cost. Here, by using a transparent and conductive indium-zinc-oxide as an intermediate electrode, we develop a tandem quantum-dot LED that can be operated at both negative and positive alternating current cycles with an external quantum efficiency of 20.09% and 21.15%, respectively. Furthe",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "An electricity-driven mobility circular economy with lifecycle carbon footprints for climate-adaptive carbon neutrality transformation",
"doi": "10.1038/s41467-024-49868-9",
"url": "https://doi.org/10.1038/s41467-024-49868-9",
"journal": "Nature Communications",
"year": 2024,
"authors": "Song, A.; Dan, Z.; Zheng, S.; Zhou, Y.",
"abstract": "AbstractUnder the carbon neutrality targets and sustainable development goals, emergingly increasing needs for batteries are in buildings and electric vehicles. However, embodied carbon emissions impose dialectical viewpoints on whether the electrochemical battery is environmentally friendly or not. In this research, a community with energy paradigm shifting towards decentralization, renewable and sustainability is studied, with multi-directional Vehicle-to-Everything (V2X) and lifecycle battery",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Future hydrogen economies imply environmental trade-offs and a supply-demand mismatch",
"doi": "10.1038/s41467-024-51251-7",
"url": "https://doi.org/10.1038/s41467-024-51251-7",
"journal": "Nature Communications",
"year": 2024,
"authors": "Terlouw, T.; Rosa, L.; Bauer, C.; McKenna, R.",
"abstract": "AbstractHydrogen will play a key role in decarbonizing economies. Here, we quantify the costs and environmental impacts of possible large-scale hydrogen economies, using four prospective hydrogen demand scenarios for 2050 ranging from 111–614 megatonne H2 year−1. Our findings confirm that renewable (solar photovoltaic and wind) electrolytic hydrogen production generates at least 50–90% fewer greenhouse gas emissions than fossil-fuel-based counterparts without carbon capture and storage. However,",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "On the potential of vehicle-to-grid and second-life batteries to provide energy and material security",
"doi": "10.1038/s41467-024-48554-0",
"url": "https://doi.org/10.1038/s41467-024-48554-0",
"journal": "Nature Communications",
"year": 2024,
"authors": "Aguilar Lopez, F.; Lauinger, D.; Vuille, F.; Müller, D.",
"abstract": "AbstractThe global energy transition relies increasingly on lithium-ion batteries for electric transportation and renewable energy integration. Given the highly concentrated supply chain of battery materials, importing regions have a strategic imperative to reduce their reliance on battery material imports through, e.g., battery recycling or reuse. We investigate the potential of vehicle-to-grid and second-life batteries to reduce resource use by displacing new stationary batteries dedicated to ",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "The value of long-duration energy storage under various grid conditions in a zero-emissions future",
"doi": "10.1038/s41467-024-53274-6",
"url": "https://doi.org/10.1038/s41467-024-53274-6",
"journal": "Nature Communications",
"year": 2024,
"authors": "Staadecker, M.; Szinai, J.; Sánchez-Pérez, P.; Kurtz, S.; Hidalgo-Gonzalez, P.",
"abstract": "Abstract\n \n Long-duration energy storage (LDES) is a key resource in enabling zero-emissions electricity grids but its role within different types of grids is not well understood. Using the Switch capacity expansion model, we model a zero-emissions Western Interconnect with high geographical resolution to understand the value of LDES under 39 scenarios with different generation mixes, transmission expansion, storage costs, and storage mandates. We find that a)",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Simulation Tools",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Electric vehicle battery chemistry affects supply chain disruption vulnerabilities",
"doi": "10.1038/s41467-024-46418-1",
"url": "https://doi.org/10.1038/s41467-024-46418-1",
"journal": "Nature Communications",
"year": 2024,
"authors": "Cheng, A.; Fuchs, E.; Karplus, V.; Michalek, J.",
"abstract": "Abstract\n We examine the relationship between electric vehicle battery chemistry and supply chain disruption vulnerability for four critical minerals: lithium, cobalt, nickel, and manganese. We compare the nickel manganese cobalt (NMC) and lithium iron phosphate (LFP) cathode chemistries by (1) mapping the supply chains for these four materials, (2) calculating a vulnerability index for each cathode chemistry for various focal countries and (3) using network flow optimization to bound u",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Comparing costs and climate impacts of various electric vehicle charging systems across the United States",
"doi": "10.1038/s41467-024-49157-5",
"url": "https://doi.org/10.1038/s41467-024-49157-5",
"journal": "Nature Communications",
"year": 2024,
"authors": "Horesh, N.; Trinko, D.; Quinn, J.",
"abstract": "AbstractThe seamless adoption of electric vehicles (EVs) in the United States necessitates the development of extensive and effective charging infrastructure. Various charging systems have been proposed, including Direct Current Fast Charging, Battery Swapping, and Dynamic Wireless Power Transfer. While many studies have evaluated the charging costs and greenhouse gas (GHG) intensity of EVs, a comprehensive analysis comparing these systems and their implications across vehicle categories remains",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Offshore wind and wave energy can reduce total installed capacity required in zero-emissions grids",
"doi": "10.1038/s41467-024-50040-6",
"url": "https://doi.org/10.1038/s41467-024-50040-6",
"journal": "Nature Communications",
"year": 2024,
"authors": "Gonzalez, N.; Serna-Torre, P.; Sánchez-Pérez, P.; Davidson, R.; Murray, B.",
"abstract": "Abstract\n As the world races to decarbonize power systems to mitigate climate change, the body of research analyzing paths to zero emissions electricity grids has substantially grown. Although studies typically include commercially available technologies, few of them consider offshore wind and wave energy as contenders in future zero-emissions grids. Here, we model with high geographic resolution both offshore wind and wave energy as independent technologies with the possibility",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Public agreement with misinformation about wind farms",
"doi": "10.1038/s41467-024-53278-2",
"url": "https://doi.org/10.1038/s41467-024-53278-2",
"journal": "Nature Communications",
"year": 2024,
"authors": "Winter, K.; Hornsey, M.; Pummerer, L.; Sassenberg, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Optimal blade pitch control for enhanced vertical-axis wind turbine performance",
"doi": "10.1038/s41467-024-46988-0",
"url": "https://doi.org/10.1038/s41467-024-46988-0",
"journal": "Nature Communications",
"year": 2024,
"authors": "Le Fouest, S.; Mulleners, K.",
"abstract": "Abstract\n Vertical-axis wind turbines are great candidates to enable wind power extraction in urban and off-shore applications. Currently, concerns around turbine efficiency and structural integrity limit their industrial deployment. Flow control can mitigate these concerns. Here, we experimentally demonstrate the potential of individual blade pitching as a control strategy and explain the flow physics that yields the performance enhancement. We perform automated experiments usi",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Micromachined structures decoupling Joule heating and electron wind force",
"doi": "10.1038/s41467-024-50351-8",
"url": "https://doi.org/10.1038/s41467-024-50351-8",
"journal": "Nature Communications",
"year": 2024,
"authors": "Gu, S.; Kimura, Y.; Yan, X.; Liu, C.; Cui, Y.",
"abstract": "AbstractMicrostructural changes in conductive materials induced by electric current treatments, such as electromigration and electroplasticity, are critical in semiconductor and metal processing. However, owing to the inevitable thermal effect (Joule heating), the athermal effect on microstructural modifications remains obscure. This paper presents an approach of utilizing pre-micromachined structures, which obstruct current flow but maintain a thermal history similar to that of the matrix, effe",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Competing effects of wind and buoyancy forcing on ocean oxygen trends in recent decades",
"doi": "10.1038/s41467-024-53557-y",
"url": "https://doi.org/10.1038/s41467-024-53557-y",
"journal": "Nature Communications",
"year": 2024,
"authors": "Hollitzer, H.; Patara, L.; Terhaar, J.; Oschlies, A.",
"abstract": "Abstract\n Ocean deoxygenation is becoming a major stressor for marine ecosystems due to anthropogenic climate change. Two major pathways through which climate change affects ocean oxygen are changes in wind fields and changes in air-sea heat and freshwater fluxes. Here, we use a global ocean biogeochemistry model run under historical atmospheric forcing to show that wind stress is the dominant driver of year-to-year oxygen variability in most ocean regions. Only in areas of wate",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Historical changes in wind-driven ocean circulation drive pattern of Pacific warming",
"doi": "10.1038/s41467-024-45677-2",
"url": "https://doi.org/10.1038/s41467-024-45677-2",
"journal": "Nature Communications",
"year": 2024,
"authors": "Fu, S.; Hu, S.; Zheng, X.; McMonigal, K.; Larson, S.",
"abstract": "Abstract\n The tropical Pacific warming pattern since the 1950s exhibits two warming centers in the western Pacific (WP) and eastern Pacific (EP), encompassing an equatorial central Pacific (CP) cooling and a hemispheric asymmetry in the subtropical EP. The underlying mechanisms of this warming pattern remain debated. Here, we conduct ocean heat decompositions of two coupled model large ensembles to unfold the role of wind-driven ocean circulation. When wind changes are suppresse",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Enhanced continuous atmospheric water harvesting with scalable hygroscopic gel driven by natural sunlight and wind",
"doi": "10.1038/s41467-024-52137-4",
"url": "https://doi.org/10.1038/s41467-024-52137-4",
"journal": "Nature Communications",
"year": 2024,
"authors": "Yang, X.; Chen, Z.; Xiang, C.; Shan, H.; Wang, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Zero-Energy Water Supply",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Future sea ice weakening amplifies wind-driven trends in surface stress and Arctic Ocean spin-up",
"doi": "10.1038/s41467-024-50874-0",
"url": "https://doi.org/10.1038/s41467-024-50874-0",
"journal": "Nature Communications",
"year": 2024,
"authors": "Muilwijk, M.; Hattermann, T.; Martin, T.; Granskog, M.",
"abstract": "AbstractArctic sea ice mediates atmosphere-ocean momentum transfer, which drives upper ocean circulation. How Arctic Ocean surface stress and velocity respond to sea ice decline and changing winds under global warming is unclear. Here we show that state-of-the-art climate models consistently predict an increase in future (2015–2100) ocean surface stress in response to increased surface wind speed, declining sea ice area, and a weaker ice pack. While wind speeds increase most during fall (+2.2% p",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Author Correction: Historical changes in wind-driven ocean circulation drive pattern of Pacific warming",
"doi": "10.1038/s41467-024-48299-w",
"url": "https://doi.org/10.1038/s41467-024-48299-w",
"journal": "Nature Communications",
"year": 2024,
"authors": "Fu, S.; Hu, S.; Zheng, X.; McMonigal, K.; Larson, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Efficient energy conversion mechanism and energy storage strategy for triboelectric nanogenerators",
"doi": "10.1038/s41467-024-50978-7",
"url": "https://doi.org/10.1038/s41467-024-50978-7",
"journal": "Nature Communications",
"year": 2024,
"authors": "Wu, H.; Shan, C.; Fu, S.; Li, K.; Wang, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Transforming wearable technology with advanced ultra-flexible energy harvesting and storage solutions",
"doi": "10.1038/s41467-024-52534-9",
"url": "https://doi.org/10.1038/s41467-024-52534-9",
"journal": "Nature Communications",
"year": 2024,
"authors": "Jahandar, M.; Kim, S.; Lim, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Supercooled erythritol for high-performance seasonal thermal energy storage",
"doi": "10.1038/s41467-024-49333-7",
"url": "https://doi.org/10.1038/s41467-024-49333-7",
"journal": "Nature Communications",
"year": 2024,
"authors": "Yang, S.; Shi, H.; Liu, J.; Lai, Y.; Bayer, Ö.",
"abstract": "AbstractSeasonal storage of solar thermal energy through supercooled phase change materials (PCM) offers a promising solution for decarbonizing space and water heating in winter. Despite the high energy density and adaptability, natural PCMs often lack the necessary supercooling for stable, long-term storage. Leveraging erythritol, a sustainable mid-temperature PCM with high latent heat, we introduce a straightforward method to stabilize its supercooling by incorporating carrageenan (CG), a bio-",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Building Energy Materials",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "High-entropy relaxor ferroelectric ceramics for ultrahigh energy storage",
"doi": "10.1038/s41467-024-49107-1",
"url": "https://doi.org/10.1038/s41467-024-49107-1",
"journal": "Nature Communications",
"year": 2024,
"authors": "Peng, H.; Wu, T.; Liu, Z.; Fu, Z.; Wang, D.",
"abstract": "AbstractDielectric ceramic capacitors with ultrahigh power densities are fundamental to modern electrical devices. Nonetheless, the poor energy density confined to the low breakdown strength is a long-standing bottleneck in developing desirable dielectric materials for practical applications. In this instance, we present a high-entropy tungsten bronze-type relaxor ferroelectric achieved through an equimolar-ratio element design, which realizes a giant recoverable energy density of 11.0 J·cm−3 an",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Publisher Correction: High-entropy relaxor ferroelectric ceramics for ultrahigh energy storage",
"doi": "10.1038/s41467-024-50284-2",
"url": "https://doi.org/10.1038/s41467-024-50284-2",
"journal": "Nature Communications",
"year": 2024,
"authors": "Peng, H.; Wu, T.; Liu, Z.; Fu, Z.; Wang, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "An ultraflexible energy harvesting-storage system for wearable applications",
"doi": "10.1038/s41467-024-50894-w",
"url": "https://doi.org/10.1038/s41467-024-50894-w",
"journal": "Nature Communications",
"year": 2024,
"authors": "Saifi, S.; Xiao, X.; Cheng, S.; Guo, H.; Zhang, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Enhanced high-temperature energy storage performances in polymer dielectrics by synergistically optimizing band-gap and polarization of dipolar glass",
"doi": "10.1038/s41467-024-52791-8",
"url": "https://doi.org/10.1038/s41467-024-52791-8",
"journal": "Nature Communications",
"year": 2024,
"authors": "Yang, M.; Ren, W.; Jin, Z.; Xu, E.; Shen, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Carbon footprint distributions of lithium-ion batteries and their materials",
"doi": "10.1038/s41467-024-54634-y",
"url": "https://doi.org/10.1038/s41467-024-54634-y",
"journal": "Nature Communications",
"year": 2024,
"authors": "Peiseler, L.; Schenker, V.; Schatzmann, K.; Pfister, S.; Wood, V.",
"abstract": "Abstract\n \n Lithium-ion batteries are pivotal in climate change mitigation. While their own carbon footprint raises concerns, existing studies are scattered, hard to compare and largely overlook the relevance of battery materials. Here, we go beyond traditional carbon footprint analysis and develop a cost-based approach, estimating emission curves for battery materials lithium, nickel and cobalt, based on mining cost data. Combining the emission curves with re",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Climate change will impact the value and optimal adoption of residential rooftop solar",
"doi": "10.1038/s41558-024-01978-4",
"url": "https://doi.org/10.1038/s41558-024-01978-4",
"journal": "Nature Climate Change",
"year": 2024,
"authors": "Shi, M.; Lu, X.; Craig, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Wind changes enhance ENSO",
"doi": "10.1038/s41558-024-02228-3",
"url": "https://doi.org/10.1038/s41558-024-02228-3",
"journal": "Nature Climate Change",
"year": 2024,
"authors": "Wake, B.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "North Atlantic–Pacific salinity contrast enhanced by wind and ocean warming",
"doi": "10.1038/s41558-024-02033-y",
"url": "https://doi.org/10.1038/s41558-024-02033-y",
"journal": "Nature Climate Change",
"year": 2024,
"authors": "Lu, Y.; Li, Y.; Lin, P.; Cheng, L.; Ge, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Major step up in carbon capture and storage needed to keep warming below 2 °C",
"doi": "10.1038/s41558-024-02112-0",
"url": "https://doi.org/10.1038/s41558-024-02112-0",
"journal": "Nature Climate Change",
"year": 2024,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Cross-border CO2 transport decreases public acceptance of carbon capture and storage",
"doi": "10.1038/s41558-024-02023-0",
"url": "https://doi.org/10.1038/s41558-024-02023-0",
"journal": "Nature Climate Change",
"year": 2024,
"authors": "Anders, S.; Liebe, U.; Meyerhoff, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Feasible deployment of carbon capture and storage and the requirements of climate targets",
"doi": "10.1038/s41558-024-02104-0",
"url": "https://doi.org/10.1038/s41558-024-02104-0",
"journal": "Nature Climate Change",
"year": 2024,
"authors": "Kazlou, T.; Cherp, A.; Jewell, J.",
"abstract": "Abstract\n \n Climate change mitigation requires the large-scale deployment of carbon capture and storage (CCS). Recent plans indicate an eight-fold increase in CCS capacity by 2030, yet the feasibility of CCS expansion is debated. Using historical growth of CCS and other policy-driven technologies, we show that if plans double between 2023 and 2025 and their failure rates decrease by half, CCS could reach 0.37 GtCO\n 2 \n yr\n",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Microphase iron particle growth promoted by solar wind implantation in lunar soils",
"doi": "10.1093/pnasnexus/pgae450",
"url": "https://doi.org/10.1093/pnasnexus/pgae450",
"journal": "npj Clean Energy",
"year": 2024,
"authors": "Lu, X.; Chen, J.; Cao, H.; Fu, X.; Zeng, X.",
"abstract": "Abstract\n Lunar soils record the history and spectral changes resulting from the space-weathering process. The solar wind and micrometeoroids are the main space-weathering agents leading to darkening (decreasing albedo) and reddening (increasing reflectance with longer wavelength) of visible and near-infrared spectra. Nevertheless, their relative contributions are not well constrained and understood. In this study, we examine the near-infrared spectral variation as a function of lu",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Effects of firebricks for industrial process heat on the cost of matching all-sector energy demand with 100% wind–water–solar supply in 149 countries",
"doi": "10.1093/pnasnexus/pgae274",
"url": "https://doi.org/10.1093/pnasnexus/pgae274",
"journal": "npj Clean Energy",
"year": 2024,
"authors": "Jacobson, M.; Sambor, D.; Fan, Y.; Mühlbauer, A.",
"abstract": "AbstractRefractory bricks are bricks that can withstand high temperatures without damage to their structures. They have been used to insulate kilns, furnaces, and other hot enclosures for thousands of years. Firebricks are refractory bricks that can, with one composition, store heat, and with another, insulate the firebricks that store the heat. Because firebricks are made from common materials, the cost per kilowatt-hour-thermal of a firebrick storage system is less than one-tenth the cost per ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Prioritizing social vulnerability in urban heat mitigation",
"doi": "10.1093/pnasnexus/pgae360",
"url": "https://doi.org/10.1093/pnasnexus/pgae360",
"journal": "npj Clean Energy",
"year": 2024,
"authors": "Fung, K.; Yang, Z.; Martilli, A.; Krayenhoff, E.; Niyogi, D.",
"abstract": "Abstract\n We utilized city-scale simulations to quantitatively compare the diverse urban overheating mitigation strategies, specifically tied to social vulnerability and their cooling efficacies during heatwaves. We enhanced the Weather Research and Forecasting model to encompass the urban tree effect and calculate the Universal Thermal Climate Index for assessing thermal comfort. Taking Houston, Texas, and United States as an example, the study reveals that equitably mitigating ur",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Incorporating platinum circular economy into China’s hydrogen pathways toward carbon neutrality",
"doi": "10.1093/pnasnexus/pgae172",
"url": "https://doi.org/10.1093/pnasnexus/pgae172",
"journal": "npj Clean Energy",
"year": 2024,
"authors": "Wang, P.; Wang, C.; Li, J.; Hubacek, K.; Sun, L.",
"abstract": "Abstract\n Hydrogen is gaining tremendous traction in China as the fuel of the future to support the country’s carbon neutrality ambition. Despite that hydrogen as fuel largely hinges on the supply of platinum (Pt), the dynamic interlinkage between Pt supply challenges, hydrogen development pathways, and climate targets in China has yet to be deeply analyzed. Here, we adopt an integrated assessment model to address this important concern and corresponding strategies for China. The r",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Simulation Tools",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Robust capital cost optimization of generation and multitimescale storage requirements for a 100% renewable Australian electricity grid",
"doi": "10.1093/pnasnexus/pgae127",
"url": "https://doi.org/10.1093/pnasnexus/pgae127",
"journal": "npj Clean Energy",
"year": 2024,
"authors": "Shaikh, R.; Vowles, D.; Dinovitser, A.; Allison, A.; Abbott, D.",
"abstract": "Abstract\n Transitioning from a fossil-fuel-dependent economy to one based on renewable energy requires significant investment and technological advancement. While wind and solar technologies provide lower cost electricity, enhanced energy storage and transmission infrastructure come at a cost for managing renewable intermittency. Energy storage systems vary in characteristics and costs, and future grids will incorporate multiple technologies, yet the optimal combination of storage ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A biospecies-derived genomic DNA hybrid gel electrolyte for electrochemical energy storage",
"doi": "10.1093/pnasnexus/pgae213",
"url": "https://doi.org/10.1093/pnasnexus/pgae213",
"journal": "npj Clean Energy",
"year": 2024,
"authors": "Mitta, S.; Kim, J.; Rana, H.; Kokkiligadda, S.; Lim, Y.",
"abstract": "Abstract\n Intrinsic impediments, namely weak mechanical strength, low ionic conductivity, low electrochemical performance, and stability have largely inhibited beyond practical applications of hydrogels in electronic devices and remains as a significant challenge in the scientific world. Here, we report a biospecies-derived genomic DNA hybrid gel electrolyte with many synergistic effects, including robust mechanical properties (mechanical strength and elongation of 6.98 MPa and 997",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Catch the wind: Optimizing wind turbine power generation by addressing wind veer effects",
"doi": "10.1093/pnasnexus/pgae480",
"url": "https://doi.org/10.1093/pnasnexus/pgae480",
"journal": "npj Clean Energy",
"year": 2024,
"authors": "Gao, L.; Milliren, C.; Dasari, T.; Knoll, A.; Hong, J.",
"abstract": "Abstract\n Wind direction variability with height, known as “wind veer,” results in power losses for wind turbines (WTs) that rely on single-point wind measurements at the turbine nacelles. To address this challenge, we introduce a yaw control strategy designed to optimize turbine alignment by adjusting the yaw angle based on specific wind veer conditions, thereby boosting power generation efficiency. This strategy integrates modest yaw offset angles into the existing turbine contro",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Deciphering the variability in air-sea gas transfer due to sea state and wind history",
"doi": "10.1093/pnasnexus/pgae389",
"url": "https://doi.org/10.1093/pnasnexus/pgae389",
"journal": "npj Clean Energy",
"year": 2024,
"authors": "Yang, M.; Moffat, D.; Dong, Y.; Bidlot, J.",
"abstract": "Abstract\n Understanding processes driving air-sea gas transfer and being able to model both its mean and variability are critical for studies of climate and carbon cycle. The air-sea gas transfer velocity (K660) is almost universally parameterized as a function of wind speed in large scale models—an oversimplification that buries the mechanisms controlling K660 and neglects much natural variability. Sea state has long been speculated to affect gas transfer, but consistent relations",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Rooftop photovoltaic solar panels warm up and cool down cities",
"doi": "10.1038/s44284-024-00137-2",
"url": "https://doi.org/10.1038/s44284-024-00137-2",
"journal": "Nature Cities",
"year": 2024,
"authors": "Khan, A.; Anand, P.; Garshasbi, S.; Khatun, R.; Khorat, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Analytical and experimental analysis of concrete temperature and energy considering open-air environmental variations",
"doi": "10.1038/s41598-024-64568-6",
"url": "https://doi.org/10.1038/s41598-024-64568-6",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Yang, W.; Li, P.; Zhuo, L.; Pang, M.; Xie, H.",
"abstract": "AbstractLongwave radiation is an important open-air environmental factor that can significantly affect the temperature of concrete, but it has often been ignored in the temperature analysis of open-air concrete structures. In this article, an improved analytical model of concrete temperature was proposed by considering solar radiation, thermal convection, thermal conduction and especially longwave radiation. Temperature monitoring of an open-air concrete block was carried out to verify the propo",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A quick comparison model on optimizing the efficiency of photovoltaic panels in collecting solar radiation",
"doi": "10.1038/s41598-024-69240-7",
"url": "https://doi.org/10.1038/s41598-024-69240-7",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Bao, Y.; Bao, H.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Numerical study on solar photovoltaic/thermal system with tesla valve",
"doi": "10.1038/s41598-024-61785-x",
"url": "https://doi.org/10.1038/s41598-024-61785-x",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Du, S.; Zou, J.; Zheng, X.; Ye, X.; Yang, H.",
"abstract": "AbstractIn recent years, photovoltaic/thermal (PV/T) systems have played a crucial role in reducing energy consumption and environmental degradation, nonetheless, the low energy conversion efficiency presents a considerable obstacle for PV/T systems. Therefore, improving heat conversion efficiency is essential to enhance energy efficiency. In this paper, the PV/T system with the Tesla valve is proposed to solve this problem. Firstly, the cooling effect is simulated and analyzed in the system wit",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Leveraging opposition-based learning for solar photovoltaic model parameter estimation with exponential distribution optimization algorithm",
"doi": "10.1038/s41598-023-50890-y",
"url": "https://doi.org/10.1038/s41598-023-50890-y",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Kullampalayam Murugaiyan, N.; Chandrasekaran, K.; Manoharan, P.; Derebew, B.",
"abstract": "AbstractGiven the multi-model and nonlinear characteristics of photovoltaic (PV) models, parameter extraction presents a challenging problem. This challenge is exacerbated by the propensity of conventional algorithms to get trapped in local optima due to the complex nature of the problem. Accurate parameter estimation, nonetheless, is crucial due to its significant impact on the PV system’s performance, influencing both current and energy production. While traditional methods have provided reaso",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "MPPT control of photovoltaic array based on improved marine predator algorithm under complex solar irradiance conditions",
"doi": "10.1038/s41598-024-70811-x",
"url": "https://doi.org/10.1038/s41598-024-70811-x",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Zhang, H.; Wang, X.; Zhang, J.; Ge, Y.; Wang, L.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Long-term path planning with optimal deployment of a charging station for monitoring photovoltaic solar farms",
"doi": "10.1038/s41598-024-68160-w",
"url": "https://doi.org/10.1038/s41598-024-68160-w",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Huang, Y.; Chen, Z.; Chu, J.; Wang, H.; Sun, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Enhanced Whale optimization algorithms for parameter identification of solar photovoltaic cell models: a comparative study",
"doi": "10.1038/s41598-024-67600-x",
"url": "https://doi.org/10.1038/s41598-024-67600-x",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Yang, S.; Xiong, G.; Fu, X.; Mirjalili, S.; Mohamed, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Achieving bifacial photovoltaic performance in PTB7-based organic solar cell by integrating transparent contact for emerging semi-transparent applications",
"doi": "10.1038/s41598-024-76366-1",
"url": "https://doi.org/10.1038/s41598-024-76366-1",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Çokduygulular, E.; Çetinkaya, Ç.; Emik, S.; Kınacı, B.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Optimization of building integrated energy scheduling using an improved genetic whale algorithm",
"doi": "10.1038/s41598-024-52995-4",
"url": "https://doi.org/10.1038/s41598-024-52995-4",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Wei, L.; An, G.",
"abstract": "AbstractRenewable energy generation has become the general trend with increasing environmental problems. However, the instability of renewable energy generation and the diversification of user demand are highlighted and the optimization of energy scheduling has become the key to solve the problem. This study introduces an energy scheduling optimization model tailored for building integrated energy systems, encompassing elements like gas turbines, wind and solar modules, ground source heat pumps,",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Comparative analysis of direct coupling and MPPT control in standalone PV systems for solar energy optimization to meet sustainable building energy demands",
"doi": "10.1038/s41598-024-72606-6",
"url": "https://doi.org/10.1038/s41598-024-72606-6",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Nataraj, C.; Karthikeyan, G.; Bharathi, G.; Duraikannan, S.",
"abstract": "Abstract\n Solar energy, a prominent renewable source, has reached an installed capacity of 71.78 GW in India. This research explored the load demands of the computer center at an engineering college in Tanjore, Tamil Nadu, India. The computer center at the engineering college has an annual energy requirement of 260,552 kWh/Year. Consequently, the research focused on the planning and implementation of a standalone photovoltaic (SAPV) system, assessing it against the institution's",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Multiple objective energy optimization of a trade center building based on genetic algorithm using ecological materials",
"doi": "10.1038/s41598-024-58515-8",
"url": "https://doi.org/10.1038/s41598-024-58515-8",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Kabiri, E.; Maftouni, N.",
"abstract": "AbstractIt is crucial to optimize energy consumption in buildings while considering thermal comfort. The first step here involved an EnergyPlus simulation on a trade center building located in Tehran, Bandar Abbas, and Tabriz, Iran. A multi-objective optimization was then performed based on non-dominated sorting genetic algorithm II (NSGA-II) in jEPlus + EA to establish the building in the selected city where would benefit the most from implementing the radiant ceiling cooling system. Efforts we",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Robust load-frequency control of islanded urban microgrid using 1PD-3DOF-PID controller including mobile EV energy storage",
"doi": "10.1038/s41598-024-64794-y",
"url": "https://doi.org/10.1038/s41598-024-64794-y",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Davoudkhani, I.; Zare, P.; Abdelaziz, A.; Bajaj, M.; Tuka, M.",
"abstract": "AbstractElectricity generation in Islanded Urban Microgrids (IUMG) now relies heavily on a diverse range of Renewable Energy Sources (RES). However, the dependable utilization of these sources hinges upon efficient Electrical Energy Storage Systems (EESs). As the intermittent nature of RES output and the low inertia of IUMGs often lead to significant frequency fluctuations, the role of EESs becomes pivotal. While these storage systems effectively mitigate frequency deviations, their high costs a",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "A rule-based energy management system for hybrid renewable energy sources with battery bank optimized by genetic algorithm optimization",
"doi": "10.1038/s41598-024-54333-0",
"url": "https://doi.org/10.1038/s41598-024-54333-0",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Jamal, S.; Pasupuleti, J.; Ekanayake, J.",
"abstract": "AbstractA Nanogrid (NG) model is described as a power distribution system that integrates Hybrid Renewable Energy Sources (HRESs) and Energy Storage Systems (ESSs) into the primary grid. However, this process is affected by several factors, like load variability, market pricing, and the intermittent nature of Wind Turbines (WTs) and Photovoltaic (PV) systems. Hence, other researchers in the past have used a few optimization-based processes to improve the development of Energy Management Systems ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Optimization clearing strategy for multi-region electricity-heat market considering shared energy storage and integrated demand response",
"doi": "10.1038/s41598-024-72397-w",
"url": "https://doi.org/10.1038/s41598-024-72397-w",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Chen, S.; Ye, Z.; Meng, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Demand Response",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Nanotechnology for thermal comfort and energy efficiency in educational buildings with a simulation and measurement approach in BSh climate",
"doi": "10.1038/s41598-024-72853-7",
"url": "https://doi.org/10.1038/s41598-024-72853-7",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Soleymani, M.; Amrollahi, R.; Taghdir, S.; Barzegar, Z.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Machine learning optimization for hybrid electric vehicle charging in renewable microgrids",
"doi": "10.1038/s41598-024-63775-5",
"url": "https://doi.org/10.1038/s41598-024-63775-5",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Hassan, M.",
"abstract": "AbstractRenewable microgrids enhance security, reliability, and power quality in power systems by integrating solar and wind sources, reducing greenhouse gas emissions. This paper proposes a machine learning approach, leveraging Gaussian Process (GP) and Krill Herd Algorithm (KHA), for energy management in renewable microgrids with a reconfigurable structure based on remote switching of tie and sectionalizing. The method utilizes Gaussian Process (GP) for modeling hybrid electric vehicle (HEV) c",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A high-fidelity lithium-ion battery emulator for electric vehicle application",
"doi": "10.1038/s41598-024-70445-z",
"url": "https://doi.org/10.1038/s41598-024-70445-z",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Fan, B.; Zhang, B.; Shi, Y.; Chang, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Research on the interaction between energy consumption and power battery life during electric vehicle acceleration",
"doi": "10.1038/s41598-023-50419-3",
"url": "https://doi.org/10.1038/s41598-023-50419-3",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Liu, Q.; Zhang, Z.; Zhang, J.",
"abstract": "AbstractMost studies on the acceleration process of electric vehicle focus on reducing energy consumption, but do not consider the impact of the power battery discharge current and its change rate on the battery life. Therefore, this paper studied the interaction between electric vehicle energy consumption and power battery capacity attenuation during acceleration. First, a power battery life model for electric vehicle under driving conditions is established, and the percentage of battery capaci",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Wind energy resource assessment and wind turbine selection analysis for sustainable energy production",
"doi": "10.1038/s41598-024-61350-6",
"url": "https://doi.org/10.1038/s41598-024-61350-6",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Spiru, P.; Simona, P.",
"abstract": "AbstractThe objective of this study is to perform an analysis to determine the most suitable type of wind turbine that can be installed at a specific location for electricity generation, using annual measurements of wind characteristics and meteorological parameters. Wind potential analysis has shown that the analyzed location is suitable for the development of a wind farm. The analysis was carried out for six different types of wind turbines, with a power ranging from 1.5 to 3.0 MW and a hub he",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Innovation in clean energy from man-made wind and small-wind generation",
"doi": "10.1038/s41598-024-74141-w",
"url": "https://doi.org/10.1038/s41598-024-74141-w",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Gil-García, I.; Fernández-Guillamón, A.; Montes-Torres, Á.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Dynamic performance of rotor-side nonlinear control technique for doubly-fed multi-rotor wind energy based on improved super-twisting algorithms under variable wind speed",
"doi": "10.1038/s41598-024-55271-7",
"url": "https://doi.org/10.1038/s41598-024-55271-7",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Benbouhenni, H.; Yessef, M.; Colak, I.; Bizon, N.; Kotb, H.",
"abstract": "AbstractThe paper proposes a nonlinear controller called dual super-twisting sliding mode command (DSTSMC) for controlling and regulating the rotor side converter (RSC) of multi-rotor wind power systems that use doubly-fed induction generators. It was proposed that this controller be developed as an alternative to the direct power control (DPC), which makes use of a pulse width modulation (PWM) strategy to regulate the RSC's functioning. Overcoming the power/current quality issue with the propos",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Continuous input current buck DC/DC converter for small-size wind energy systems featuring current sensorless MPPT control",
"doi": "10.1038/s41598-023-50692-2",
"url": "https://doi.org/10.1038/s41598-023-50692-2",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Zakzouk, N.",
"abstract": "AbstractFor decentralized electrification in remote areas, small-sized wind energy systems (WESs) are considered sustainable and affordable solution when employing an efficient, small-sized component converter integrated with a less-sophisticated, cost-effective MPPT controller. Unfortunately, using a conventional buck DC/DC converter as a MPP tracker suffer from input current discontinuity. The latter results in high ripples in the tracked rectified wind power which reduces the captured power a",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Modelling the wind potential energy for metallurgical sector in Albania",
"doi": "10.1038/s41598-024-51841-x",
"url": "https://doi.org/10.1038/s41598-024-51841-x",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Dhoska, K.; Bebi, E.; Markja, I.; Milo, P.; Sita, E.",
"abstract": "AbstractThe metallurgical industry, in the context of the global energy crisis and the new European green deal, needs urgent investments on energy and resource efficiency. The metallurgical sector, which includes the production of different metals is an energy-intensive industry that requires large amounts of energy for various processes such as smelting, refining, and casting. One of the largest consumptions of energy in Albania comes from the metallurgical sector during the production of iron,",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Publisher Correction: Modelling the wind potential energy for metallurgical sector in Albania",
"doi": "10.1038/s41598-024-55388-9",
"url": "https://doi.org/10.1038/s41598-024-55388-9",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Dhoska, K.; Bebi, E.; Markja, I.; Milo, P.; Sita, E.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Effective dynamic energy management algorithm for grid-interactive microgrid with hybrid energy storage system",
"doi": "10.1038/s41598-024-70599-w",
"url": "https://doi.org/10.1038/s41598-024-70599-w",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Kamagaté, Y.; Shah, H.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Optimal scheduling model using the IGDT method for park integrated energy systems considering P2G–CCS and cloud energy storage",
"doi": "10.1038/s41598-024-68292-z",
"url": "https://doi.org/10.1038/s41598-024-68292-z",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Wang, L.; Cheng, J.; Luo, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Research and analysis of energy consumption and energy saving in buildings based on photovoltaic photothermal integration",
"doi": "10.1038/s41598-024-51209-1",
"url": "https://doi.org/10.1038/s41598-024-51209-1",
"journal": "Scientific Reports",
"year": 2024,
"authors": "Cui, Y.; Zhang, X.",
"abstract": "AbstractIn order to reduce the energy consumption of buildings, an air source heat pump assisted rooftop photovoltaic-thermal integration system is designed. The installation area of photovoltaic modules and collectors will not only affect the power side, but also affect the thermal side. Therefore, the basic architecture of the photovoltaic photothermal integration system is first established, and then the improved whale algorithm is used to optimize the photovoltaic photothermal integration sy",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Anthracene-based energy storage",
"doi": "10.1016/j.joule.2024.10.015",
"url": "https://doi.org/10.1016/j.joule.2024.10.015",
"journal": "Joule",
"year": 2024,
"authors": "Shustova, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Hybrid solar energy device for simultaneous electric power generation and molecular solar thermal energy storage",
"doi": "10.1016/j.joule.2024.06.012",
"url": "https://doi.org/10.1016/j.joule.2024.06.012",
"journal": "Joule",
"year": 2024,
"authors": "Wang, Z.; Hölzel, H.; Fernandez, L.; Aslam, A.; Baronas, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Wavelength-selective solar photovoltaic systems to enhance spectral sharing of sunlight in agrivoltaics",
"doi": "10.1016/j.joule.2024.08.006",
"url": "https://doi.org/10.1016/j.joule.2024.08.006",
"journal": "Joule",
"year": 2024,
"authors": "Ma Lu, S.; Amaducci, S.; Gorjian, S.; Haworth, M.; Hägglund, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Photovoltaic-sorbent system for water and electricity generation",
"doi": "10.1016/j.joule.2024.01.006",
"url": "https://doi.org/10.1016/j.joule.2024.01.006",
"journal": "Joule",
"year": 2024,
"authors": "Shao, Z.; Poredoš, P.; Wang, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Cost-efficient recycling of organic photovoltaic devices",
"doi": "10.1016/j.joule.2024.06.006",
"url": "https://doi.org/10.1016/j.joule.2024.06.006",
"journal": "Joule",
"year": 2024,
"authors": "Sun, R.; Yuan, X.; Yang, X.; Wu, Y.; Shao, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Design of low-cost non-fused ultranarrow-band-gap acceptors for versatile photovoltaic applications",
"doi": "10.1016/j.joule.2024.05.011",
"url": "https://doi.org/10.1016/j.joule.2024.05.011",
"journal": "Joule",
"year": 2024,
"authors": "Ma, L.; Zhang, S.; Zhu, J.; Chen, Z.; Zhang, T.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Synergizing radiative cooling and solar power generation",
"doi": "10.1016/j.joule.2024.04.011",
"url": "https://doi.org/10.1016/j.joule.2024.04.011",
"journal": "Joule",
"year": 2024,
"authors": "Gan, Q.; Zhou, L.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Photocatalytic biomass conversion for hydrogen and renewable carbon-based chemicals",
"doi": "10.1016/j.joule.2023.12.017",
"url": "https://doi.org/10.1016/j.joule.2023.12.017",
"journal": "Joule",
"year": 2024,
"authors": "Wang, M.; Zhou, H.; Wang, F.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "A taxonomy to guide the next generation of support mechanisms for electricity storage",
"doi": "10.1016/j.joule.2024.03.015",
"url": "https://doi.org/10.1016/j.joule.2024.03.015",
"journal": "Joule",
"year": 2024,
"authors": "Mastropietro, P.; Rodilla, P.; Batlle, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Omics-enabled understanding of electric aircraft battery electrolytes",
"doi": "10.1016/j.joule.2024.05.013",
"url": "https://doi.org/10.1016/j.joule.2024.05.013",
"journal": "Joule",
"year": 2024,
"authors": "Ko, Y.; Baird, M.; Peng, X.; Ogunfunmi, T.; Byeon, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Design changes for improved circularity of silicon solar modules",
"doi": "10.1016/j.oneear.2024.01.020",
"url": "https://doi.org/10.1016/j.oneear.2024.01.020",
"journal": "One Earth",
"year": 2024,
"authors": "Tao, M.; Druffel, T.; Farag, A.; McLoughlin, K.; Leu, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Robust projections of increasing land carbon storage in boreal and temperate forests under future climate change scenarios",
"doi": "10.1016/j.oneear.2023.11.013",
"url": "https://doi.org/10.1016/j.oneear.2023.11.013",
"journal": "One Earth",
"year": 2024,
"authors": "Wei, N.; Xia, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "One-tenth of the EU’s sustainable biomethane coupled with carbon capture and storage can enable net-zero ammonia production",
"doi": "10.1016/j.oneear.2024.11.005",
"url": "https://doi.org/10.1016/j.oneear.2024.11.005",
"journal": "One Earth",
"year": 2024,
"authors": "Istrate, R.; Nabera, A.; Pérez-Ramírez, J.; Guillén-Gosálbez, G.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "A techno-economic survey of energy storage media for long-duration energy storage applications",
"doi": "10.1016/j.crsus.2023.100007",
"url": "https://doi.org/10.1016/j.crsus.2023.100007",
"journal": "Cell Reports Sustainability",
"year": 2024,
"authors": "Aspitarte, L.; Woodside, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Path analysis of using hydrogen energy to reduce greenhouse gas emissions in global aviation",
"doi": "10.1016/j.crsus.2024.100133",
"url": "https://doi.org/10.1016/j.crsus.2024.100133",
"journal": "Cell Reports Sustainability",
"year": 2024,
"authors": "Cui, Q.; Jia, Z.; Li, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "India onshore wind energy atlas accounting for altitude and land use restrictions and co-located solar",
"doi": "10.1016/j.crsus.2024.100083",
"url": "https://doi.org/10.1016/j.crsus.2024.100083",
"journal": "Cell Reports Sustainability",
"year": 2024,
"authors": "von Krauland, A.; Jacobson, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Harnessing the enigmatic ortho-para isomeric conversion for energy-efficient and low-carbon production of liquid hydrogen",
"doi": "10.1016/j.crsus.2024.100243",
"url": "https://doi.org/10.1016/j.crsus.2024.100243",
"journal": "Cell Reports Sustainability",
"year": 2024,
"authors": "Mendoza-Moreno, P.; Fulham, G.; Marek, E.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Climate and air quality benefits of wind and solar generation in the United States from 2019 to 2022",
"doi": "10.1016/j.crsus.2024.100105",
"url": "https://doi.org/10.1016/j.crsus.2024.100105",
"journal": "Cell Reports Sustainability",
"year": 2024,
"authors": "Millstein, D.; O'Shaughnessy, E.; Wiser, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "The map behind the roadmap—Introducing a geospatial energy model for utility-scale solar and wind power buildout in Kenya",
"doi": "10.1016/j.crsus.2024.100222",
"url": "https://doi.org/10.1016/j.crsus.2024.100222",
"journal": "Cell Reports Sustainability",
"year": 2024,
"authors": "Millot, A.; Lubello, P.; Tennyson, E.; Mutembei, M.; Akute, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Spatiotemporal Energy Evaluation",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Renewable indanone and thermal-stable aviation fuel from cellulose",
"doi": "10.1016/j.crsus.2024.100156",
"url": "https://doi.org/10.1016/j.crsus.2024.100156",
"journal": "Cell Reports Sustainability",
"year": 2024,
"authors": "Liu, C.; Yu, Z.; Liu, Y.; Yao, Y.; Han, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Seasonal hydrogen energy storage sizing: Two-stage economic-safety optimization for integrated energy systems in northwest China",
"doi": "10.1016/j.isci.2024.110691",
"url": "https://doi.org/10.1016/j.isci.2024.110691",
"journal": "iScience",
"year": 2024,
"authors": "Li, L.; Sun, Y.; Han, Y.; Chen, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Quantifying the impact of wildfire smoke on solar photovoltaic generation in Australia",
"doi": "10.1016/j.isci.2023.108611",
"url": "https://doi.org/10.1016/j.isci.2023.108611",
"journal": "iScience",
"year": 2024,
"authors": "Ford, E.; Peters, I.; Hoex, B.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Potential and climate effects of large-scale rooftop photovoltaic energy deployment in northwest China’s capital cities",
"doi": "10.1016/j.isci.2024.110871",
"url": "https://doi.org/10.1016/j.isci.2024.110871",
"journal": "iScience",
"year": 2024,
"authors": "Jia, D.; Yang, L.; Gao, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "On the optimization of the interconnection of photovoltaic modules integrated in vehicles",
"doi": "10.1016/j.isci.2024.110089",
"url": "https://doi.org/10.1016/j.isci.2024.110089",
"journal": "iScience",
"year": 2024,
"authors": "Macías, J.; Herrero, R.; San José, L.; Núñez, R.; Antón, I.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Comprehensive overview of heat management methods for enhancing photovoltaic thermal systems",
"doi": "10.1016/j.isci.2024.110950",
"url": "https://doi.org/10.1016/j.isci.2024.110950",
"journal": "iScience",
"year": 2024,
"authors": "Rahman, M.; Gupta, S.; Akylbekov, N.; Zhapparbergenov, R.; Hasnain, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Achieving net zero energy heating by integrating the building envelope as a thermal battery",
"doi": "10.1016/j.isci.2024.109892",
"url": "https://doi.org/10.1016/j.isci.2024.109892",
"journal": "iScience",
"year": 2024,
"authors": "Zhi, Y.; Sun, T.; Gao, D.; Chen, X.; Wei, G.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Batteries or hydrogen or both for grid electricity storage upon full electrification of 145 countries with wind-water-solar?",
"doi": "10.1016/j.isci.2024.108988",
"url": "https://doi.org/10.1016/j.isci.2024.108988",
"journal": "iScience",
"year": 2024,
"authors": "Jacobson, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Optimal scheduling of electricity and hydrogen integrated energy system considering multiple uncertainties",
"doi": "10.1016/j.isci.2024.109654",
"url": "https://doi.org/10.1016/j.isci.2024.109654",
"journal": "iScience",
"year": 2024,
"authors": "Chang, P.; Li, C.; Zhu, Q.; Zhu, T.; Shi, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Wind and solar energy in Small Island Developing States for mitigating global climate change",
"doi": "10.1016/j.isci.2024.111062",
"url": "https://doi.org/10.1016/j.isci.2024.111062",
"journal": "iScience",
"year": 2024,
"authors": "Havea, P.; Su, B.; Liu, C.; Kundzewicz, Z.; Wang, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Derived energy storage systems from Brayton cycle",
"doi": "10.1016/j.isci.2024.109460",
"url": "https://doi.org/10.1016/j.isci.2024.109460",
"journal": "iScience",
"year": 2024,
"authors": "Guo, H.; Zhang, Y.; Xu, Y.; Zhou, X.; Chen, H.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "The carbon footprint of predicting CO2 storage capacity in metal-organic frameworks within neural networks",
"doi": "10.1016/j.isci.2024.109644",
"url": "https://doi.org/10.1016/j.isci.2024.109644",
"journal": "iScience",
"year": 2024,
"authors": "Korolev, V.; Mitrofanov, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Chemically tuned intermediate band states in atomically thin Cu\n \n x\n \n GeSe/SnS quantum material for photovoltaic applications",
"doi": "10.1126/sciadv.adl6752",
"url": "https://doi.org/10.1126/sciadv.adl6752",
"journal": "Science Advances",
"year": 2024,
"authors": "Kastuar, S.; Ekuma, C.",
"abstract": "A new generation of quantum material derived from intercalating zerovalent atoms such as Cu into the intrinsic van der Waals gap at the interface of atomically thin two-dimensional GeSe/SnS heterostructure is designed, and their optoelectronic features are explored for next-generation photovoltaic applications. Advanced ab initio modeling reveals that many-body effects induce intermediate band (IB) states, with subband gaps (~0.78 and 1.26 electron volts) ideal for next-generation solar devices,",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Potential climate predictability of renewable energy supply and demand for Texas given the ENSO hidden state",
"doi": "10.1126/sciadv.ado3517",
"url": "https://doi.org/10.1126/sciadv.ado3517",
"journal": "Science Advances",
"year": 2024,
"authors": "Zhang, M.; Yan, L.; Amonkar, Y.; Nayak, A.; Lall, U.",
"abstract": "Climate variability influences renewable electricity supply and demand and hence system reliability. Using the hidden states of the sea surface temperature of tropical Pacific Ocean that reflect El Niño–Southern Oscillation (ENSO) dynamics that is objectively identified by a nonhomogeneous hidden Markov model, we provide a first example of the potential predictability of monthly wind and solar energy and heating and cooling energy demand for 1 to 6 months ahead for Texas, United States, a region",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Physics-guided deep learning for skillful wind-wave modeling",
"doi": "10.1126/sciadv.adr3559",
"url": "https://doi.org/10.1126/sciadv.adr3559",
"journal": "Science Advances",
"year": 2024,
"authors": "Wang, X.; Jiang, H.",
"abstract": "Modeling sea surface wind-waves is crucial for both scientific research and engineering applications. Nowadays, the most accurate wave models are based on numerical methods, which primarily concern the wave spectrum evolution by solving wave action balance partial differential equations. These methods are computationally expensive and limited by incomplete physical representations of wave spectral evolution. Here, we present a deep learning–based wave model trained using observation-merged wave ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Nonsynchronous rotation of icy moon ice shells: The thermal wind perspective",
"doi": "10.1126/sciadv.adk2277",
"url": "https://doi.org/10.1126/sciadv.adk2277",
"journal": "Science Advances",
"year": 2024,
"authors": "Kang, W.",
"abstract": "The ice shells of icy satellites have been hypothesized to undergo nonsynchronous rotation (NSR) under the influence of tidal torques and/or ocean currents. In this work, the author proposes that the thermal wind relationship can be combined with geostrophic turbulence theory to predict ocean stress onto the ice shell inside the tangent cylinder. High-resolution numerical simulations validate the prediction within a factor of 2. For the prediction to be valid, the rotation effect must dominate (",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Extreme wind events responsible for an outsized role in shelf-basin exchange around the southern tip of Greenland",
"doi": "10.1126/sciadv.adp9266",
"url": "https://doi.org/10.1126/sciadv.adp9266",
"journal": "Science Advances",
"year": 2024,
"authors": "Coquereau, A.; Foukal, N.; Våge, K.",
"abstract": "The coastal circulation around Southern Greenland transports fresh, buoyant water masses from the Arctic and Greenland Ice Sheet near regions of convection, sinking, and deep-water formation in the Irminger and Labrador Seas. Here, we track the pathways and fate of these fresh water masses by initializing synthetic particles in the East Greenland Coastal Current on the Southeast Greenland shelf and running them through altimetry-derived surface currents from 1993 to 2021. We report that the majo",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Exceptionally gigantic aurora in the polar cap on a day when the solar wind almost disappeared",
"doi": "10.1126/sciadv.adn5276",
"url": "https://doi.org/10.1126/sciadv.adn5276",
"journal": "Science Advances",
"year": 2024,
"authors": "Hosokawa, K.; Kataoka, R.; Tsuda, T.; Ogawa, Y.; Taguchi, S.",
"abstract": "Revealing the origins of aurorae in Earth’s polar cap has long been a challenge since direct precipitation of energetic electrons from the magnetosphere is not always expected in this region of open magnetic field lines. Here, we introduce an exceptionally gigantic aurora filling the entire polar cap region on a day when the solar wind had almost disappeared. By combining ground-based and satellite observations, we proved that this unique aurora was produced by suprathermal electrons streaming d",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Fish-inspired dynamic charging for ultrafast self-protective solar-thermal energy storage",
"doi": "10.1126/sciadv.adr8445",
"url": "https://doi.org/10.1126/sciadv.adr8445",
"journal": "Science Advances",
"year": 2024,
"authors": "Li, X.; Zhang, J.; Liu, Y.; Xu, Y.; Xie, Y.",
"abstract": "\n Solar-thermal energy storage (STES) within solid-liquid phase change materials (PCMs) has emerged as an attractive solution to overcome intermittency of renewable energy. However, current storage systems usually suffer from slow charging rates, sacrificed storage capacity, and overheating tendency. Inspired by the thermoregulation behavior of\n Cyprinid\n fish, here, we present a quick-responsive, ultrafast, large-capacity, overheating-protective STES strategy. W",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Building Energy Materials",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A synchronous-twisting method to realize radial scalability in fibrous energy storage devices",
"doi": "10.1126/sciadv.ado7826",
"url": "https://doi.org/10.1126/sciadv.ado7826",
"journal": "Science Advances",
"year": 2024,
"authors": "Zhou, Z.; Xie, S.; Cai, H.; Colli, A.; Monnens, W.",
"abstract": "\n For wearable electronics, radial scalability is one of the key research areas for fibrous energy storage devices to be commercialized, but this field has been shelved for years due to the lack of effective methods and configuration arrangements. Here, the team presents a generalizable strategy to realize radial scalability by applying a synchronous-twisting method (STM) for synthesizing a coaxial-extensible configuration (CEC). As examples, aqueous fiber-shaped Zn-MnO\n 2\n",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Precision and bias of carbon storage estimations in wetland and mangrove sediments",
"doi": "10.1126/sciadv.adl1079",
"url": "https://doi.org/10.1126/sciadv.adl1079",
"journal": "Science Advances",
"year": 2024,
"authors": "Ezcurra, E.",
"abstract": "Peaty sediments in coastal wetlands play an important role in the sequestration of atmospheric carbon dioxide and its belowground storage. Sediment cores are used to quantify organic matter (OM) density, estimated by multiplying the bulk density of a core segment by its OM fraction. This method can be imprecise, as repeated samples often differ widely. Recent studies have shown that sediment bulk density and OM fraction are not independent but tightly related by a function called the ideal-mixin",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "CO\n 2\n capture, geological storage, and mineralization using biobased biodegradable chelating agents and seawater",
"doi": "10.1126/sciadv.adq0515",
"url": "https://doi.org/10.1126/sciadv.adq0515",
"journal": "Science Advances",
"year": 2024,
"authors": "Wang, J.; Sekiai, R.; Tamura, R.; Watanabe, N.",
"abstract": "\n Geological storage and mineralization of CO\n 2\n in mafic/ultramafic reservoirs faces challenges including limited effective porosity, permeability, and rock reactivity; difficulties in using seawater for CO\n 2\n capture; and uncontrolled carbonation. This study introduces a CO\n 2\n capture, storage, and mineralization approach with the utilization of biobased biodegradable chelating agents and seawater. An acidic chelat",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Highly oxidized intraplate basalts and deep carbon storage",
"doi": "10.1126/sciadv.adm8138",
"url": "https://doi.org/10.1126/sciadv.adm8138",
"journal": "Science Advances",
"year": 2024,
"authors": "Dong, X.; Wang, S.; Wang, W.; Huang, S.; Li, Q.",
"abstract": "\n Deep carbon cycle is crucial for mantle dynamics and maintaining Earth’s habitability. Recycled carbonates are a strong oxidant in mantle carbon-iron redox reactions, leading to the formation of highly oxidized mantle domains and deep carbon storage. Here we report high Fe\n 3+\n /∑Fe values in Cenozoic intraplate basalts from eastern China, which are correlated with geochemical and isotopic compositions that point to a common role of carbonated melt with recycle",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Bichloride-based ionic liquids for the merged storage, processing, and electrolysis of hydrogen chloride",
"doi": "10.1126/sciadv.adn5353",
"url": "https://doi.org/10.1126/sciadv.adn5353",
"journal": "Science Advances",
"year": 2024,
"authors": "Dreyhsig, G.; Voßnacker, P.; Kleoff, M.; Baunis, H.; Limberg, N.",
"abstract": "\n Hydrogen chloride is produced as a by-product in industrial processes on a million-ton scale. Since HCl is inherently dangerous, its storage and transport are avoided by, e.g., on-site electrolysis providing H\n 2\n and Cl\n 2\n which usually requires complex cell designs and PFAS-based membranes. Here we report a complementary approach to safely store 0.61 kilogram HCl per kilogram storage material [NEt\n 3\n Me]Cl forming",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Olivine alteration and the loss of Mars’ early atmospheric carbon",
"doi": "10.1126/sciadv.adm8443",
"url": "https://doi.org/10.1126/sciadv.adm8443",
"journal": "Science Advances",
"year": 2024,
"authors": "Murray, J.; Jagoutz, O.",
"abstract": "\n The early Martian atmosphere had 0.25 to 4 bar of CO\n 2\n but thinned rapidly around 3.5 billion years ago. The fate of that carbon remains poorly constrained. The hydrothermal alteration of ultramafic rocks, rich in Fe(II) and Mg, forms both abiotic methane, serpentine, and high-surface-area smectite clays. Given the abundance of ultramafic rocks and smectite in the Martian upper crust and the growing evidence of organic carbon in Martian sedimentary rocks, we ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A crowdsourced dataset of aerial images with annotated solar photovoltaic arrays and installation metadata",
"doi": "10.1038/s41597-023-01951-4",
"url": "https://doi.org/10.1038/s41597-023-01951-4",
"journal": "Scientific Data",
"year": 2023,
"authors": "Kasmi, G.; Saint-Drenan, Y.; Trebosc, D.; Jolivet, R.; Leloux, J.",
"abstract": "AbstractPhotovoltaic (PV) energy generation plays a crucial role in the energy transition. Small-scale, rooftop PV installations are deployed at an unprecedented pace, and their safe integration into the grid requires up-to-date, high-quality information. Overhead imagery is increasingly being used to improve the knowledge of rooftop PV installations with machine learning models capable of automatically mapping these installations. However, these models cannot be reliably transferred from one re",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A solar panel dataset of very high resolution satellite imagery to support the Sustainable Development Goals",
"doi": "10.1038/s41597-023-02539-8",
"url": "https://doi.org/10.1038/s41597-023-02539-8",
"journal": "Scientific Data",
"year": 2023,
"authors": "Clark, C.; Pacifici, F.",
"abstract": "AbstractEffectively supporting the United Nations’ Sustainable Development Goals requires reliable, substantial, and timely data. For solar panel installation monitoring, where accurate reporting is crucial in tracking green energy production and sustainable energy access, official and regulated documentation remains inconsistent. Reports of solar panel installations have been supplemented with object detection models developed and used on openly available aerial imagery, a type of imagery colle",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar active region magnetogram image dataset for studies of space weather",
"doi": "10.1038/s41597-023-02628-8",
"url": "https://doi.org/10.1038/s41597-023-02628-8",
"journal": "Scientific Data",
"year": 2023,
"authors": "Boucheron, L.; Vincent, T.; Grajeda, J.; Wuest, E.",
"abstract": "AbstractIn this dataset we provide a comprehensive collection of line-of-sight (LOS) solar photospheric magnetograms (images quantifying the strength of the photospheric magnetic field) from the National Aeronautics and Space Administration’s (NASA’s) Solar Dynamics Observatory (SDO). The dataset incorporates data from three sources and provides SDO Helioseismic and Magnetic Imager (HMI) magnetograms of solar active regions (regions of large magnetic flux, generally the source of eruptive events",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Georectified polygon database of ground-mounted large-scale solar photovoltaic sites in the United States",
"doi": "10.1038/s41597-023-02644-8",
"url": "https://doi.org/10.1038/s41597-023-02644-8",
"journal": "Scientific Data",
"year": 2023,
"authors": "Fujita, K.; Ancona, Z.; Kramer, L.; Straka, M.; Gautreau, T.",
"abstract": "AbstractOver 4,400 large-scale solar photovoltaic (LSPV) facilities operate in the United States as of December 2021, representing more than 60 gigawatts of electric energy capacity. Of these, over 3,900 are ground-mounted LSPV facilities with capacities of 1 megawatt direct current (MWdc) or more. Ground-mounted LSPV installations continue increasing, with more than 400 projects appearing online in 2021 alone; however, a comprehensive, publicly available georectified dataset including spatial f",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A battery dataset for electric vertical takeoff and landing aircraft",
"doi": "10.1038/s41597-023-02180-5",
"url": "https://doi.org/10.1038/s41597-023-02180-5",
"journal": "Scientific Data",
"year": 2023,
"authors": "Bills, A.; Sripad, S.; Fredericks, L.; Guttenberg, M.; Charles, D.",
"abstract": "Abstract\n Electric vertical takeoff and landing aircraft have a unique duty cycle characterized by high discharge currents at the beginning and end of the mission (corresponding to takeoff and landing of the aircraft) and a moderate power requirement between them with no rest periods during the mission. Here, we generated a dataset of battery duty profiles for an electric vertical takeoff and landing aircraft using a cell typical for that application. The dataset features 22 cel",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "HIT-UAV: A high-altitude infrared thermal dataset for Unmanned Aerial Vehicle-based object detection",
"doi": "10.1038/s41597-023-02066-6",
"url": "https://doi.org/10.1038/s41597-023-02066-6",
"journal": "Scientific Data",
"year": 2023,
"authors": "Suo, J.; Wang, T.; Zhang, X.; Chen, H.; Zhou, W.",
"abstract": "AbstractWe present the HIT-UAV dataset, a high-altitude infrared thermal dataset for object detection applications on Unmanned Aerial Vehicles (UAVs). The dataset comprises 2,898 infrared thermal images extracted from 43,470 frames in hundreds of videos captured by UAVs in various scenarios, such as schools, parking lots, roads, and playgrounds. Moreover, the HIT-UAV provides essential flight data for each image, including flight altitude, camera perspective, date, and daylight intensity. For ea",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Positron emission tomography dataset of [11C]carbon dioxide storage in coal for geo-sequestration application",
"doi": "10.1038/s41597-023-02754-3",
"url": "https://doi.org/10.1038/s41597-023-02754-3",
"journal": "Scientific Data",
"year": 2023,
"authors": "Jing, Y.; Kumaran, A.; Stimson, D.; Mardon, K.; Najdovski, L.",
"abstract": "AbstractPositron Emission Tomography (PET) imaging has demonstrated its capability in providing time-lapse fluid flow visualisation for improving the understanding of flow properties of geologic media. To investigate the process of CO2 geo-sequestration using PET imaging technology, [11C]CO2 is the most optimal and direct radiotracer. However, it has not been extensively used due to the short half-life of Carbon-11 (20.4 minutes). In this work, a novel laboratory protocol is developed to use [11",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Mechanisms for improved open-circuit voltage in ternary organic solar cells",
"doi": "10.1038/s41560-023-01313-9",
"url": "https://doi.org/10.1038/s41560-023-01313-9",
"journal": "Nature Energy",
"year": 2023,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Origins of the open-circuit voltage in ternary organic solar cells and design rules for minimized voltage losses",
"doi": "10.1038/s41560-023-01309-5",
"url": "https://doi.org/10.1038/s41560-023-01309-5",
"journal": "Nature Energy",
"year": 2023,
"authors": "Wang, Y.; Yu, J.; Zhang, R.; Yuan, J.; Hultmark, S.",
"abstract": "AbstractThe power conversion efficiency of ternary organic solar cells (TOSCs), consisting of one host binary blend and one guest component, remains limited by large voltage losses. The fundamental understanding of the open-circuit voltage (VOC) in TOSCs is controversial, limiting rational design of the guest component. In this study, we systematically investigate how the guest component affects the radiative and non-radiative related parts of VOC of a series of TOSCs using the detailed balanced",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Simplifying solar adoption regulation",
"doi": "10.1038/s41560-023-01369-7",
"url": "https://doi.org/10.1038/s41560-023-01369-7",
"journal": "Nature Energy",
"year": 2023,
"authors": "Lakeman, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Fixed charge passivation in perovskite solar cells",
"doi": "10.1038/s41560-023-01392-8",
"url": "https://doi.org/10.1038/s41560-023-01392-8",
"journal": "Nature Energy",
"year": 2023,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Update on the Solar Cells Reporting Summary",
"doi": "10.1038/s41560-023-01432-3",
"url": "https://doi.org/10.1038/s41560-023-01432-3",
"journal": "Nature Energy",
"year": 2023,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Silicon solar cells step up",
"doi": "10.1038/s41560-023-01296-7",
"url": "https://doi.org/10.1038/s41560-023-01296-7",
"journal": "Nature Energy",
"year": 2023,
"authors": "Green, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Concentrating on solar for hydrogen",
"doi": "10.1038/s41560-023-01256-1",
"url": "https://doi.org/10.1038/s41560-023-01256-1",
"journal": "Nature Energy",
"year": 2023,
"authors": "Deutsch, T.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Perovskite solar cells take the heat",
"doi": "10.1038/s41560-023-01400-x",
"url": "https://doi.org/10.1038/s41560-023-01400-x",
"journal": "Nature Energy",
"year": 2023,
"authors": "Ramadan, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Taking control of energy as a solar prosumer",
"doi": "10.1038/s41560-022-01174-8",
"url": "https://doi.org/10.1038/s41560-022-01174-8",
"journal": "Nature Energy",
"year": 2023,
"authors": "Middlemiss, L.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Transparent aerogels reduce energy loss through building windows",
"doi": "10.1038/s41560-023-01229-4",
"url": "https://doi.org/10.1038/s41560-023-01229-4",
"journal": "Nature Energy",
"year": 2023,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Emissions from natural hydrogen",
"doi": "10.1038/s41560-023-01344-2",
"url": "https://doi.org/10.1038/s41560-023-01344-2",
"journal": "Nature Energy",
"year": 2023,
"authors": "Gallagher, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Rail-based mobile energy storage as a grid-reliability solution for climate extremes",
"doi": "10.1038/s41560-023-01284-x",
"url": "https://doi.org/10.1038/s41560-023-01284-x",
"journal": "Nature Energy",
"year": 2023,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Leveraging rail-based mobile energy storage to increase grid reliability in the face of climate uncertainty",
"doi": "10.1038/s41560-023-01276-x",
"url": "https://doi.org/10.1038/s41560-023-01276-x",
"journal": "Nature Energy",
"year": 2023,
"authors": "Moraski, J.; Popovich, N.; Phadke, A.",
"abstract": "Abstract\n Maintaining reliability is increasingly challenging for electric grids as they endure more frequent extreme weather events and utilize more intermittent generation. Exploration of alternative reliability approaches is needed to effectively address these emerging issues. Here we examine the potential to use the US rail system as a nationwide backup transmission grid over which containerized batteries, or rail-based mobile energy storage (RMES), are shared among regions ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Uncertainty analysis identifies drivers of offshore wind deployment",
"doi": "10.1038/s41560-023-01372-y",
"url": "https://doi.org/10.1038/s41560-023-01372-y",
"journal": "Nature Energy",
"year": 2023,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Tackling grand challenges in wind energy through a socio-technical perspective",
"doi": "10.1038/s41560-023-01266-z",
"url": "https://doi.org/10.1038/s41560-023-01266-z",
"journal": "Nature Energy",
"year": 2023,
"authors": "Kirkegaard, J.; Rudolph, D.; Nyborg, S.; Solman, H.; Gill, E.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Expanded modelling scenarios to understand the role of offshore wind in decarbonizing the United States",
"doi": "10.1038/s41560-023-01364-y",
"url": "https://doi.org/10.1038/s41560-023-01364-y",
"journal": "Nature Energy",
"year": 2023,
"authors": "Beiter, P.; Mai, T.; Mowers, M.; Bistline, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Climate change impacts on planned supply–demand match in global wind and solar energy systems",
"doi": "10.1038/s41560-023-01304-w",
"url": "https://doi.org/10.1038/s41560-023-01304-w",
"journal": "Nature Energy",
"year": 2023,
"authors": "Liu, L.; He, G.; Wu, M.; Liu, G.; Zhang, H.",
"abstract": "AbstractClimate change modulates both energy demand and wind and solar energy supply but a globally synthetic analysis of supply–demand match (SDM) is lacking. Here, we use 12 state-of-the-art climate models to assess climate change impacts on SDM, quantified by the fraction of demand met by local wind or solar supply. For energy systems with varying dependence on wind or solar supply, up to 32% or 44% of non-Antarctic land areas, respectively, are projected to experience robust SDM reductions b",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Impact of siting ordinances on land availability for wind and solar development",
"doi": "10.1038/s41560-023-01319-3",
"url": "https://doi.org/10.1038/s41560-023-01319-3",
"journal": "Nature Energy",
"year": 2023,
"authors": "Lopez, A.; Cole, W.; Sergi, B.; Levine, A.; Carey, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "UV–vis spectroscopy for monitoring oxidation state changes during electrochemical energy storage",
"doi": "10.1038/s41560-023-01258-z",
"url": "https://doi.org/10.1038/s41560-023-01258-z",
"journal": "Nature Energy",
"year": 2023,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "In situ monitoring redox processes in energy storage using UV–Vis spectroscopy",
"doi": "10.1038/s41560-023-01240-9",
"url": "https://doi.org/10.1038/s41560-023-01240-9",
"journal": "Nature Energy",
"year": 2023,
"authors": "Zhang, D.; Wang, R.; Wang, X.; Gogotsi, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Engineering relaxors by entropy for high energy storage performance",
"doi": "10.1038/s41560-023-01300-0",
"url": "https://doi.org/10.1038/s41560-023-01300-0",
"journal": "Nature Energy",
"year": 2023,
"authors": "Yang, B.; Zhang, Q.; Huang, H.; Pan, H.; Zhu, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Energy storage solutions to decarbonize electricity through enhanced capacity expansion modelling",
"doi": "10.1038/s41560-023-01340-6",
"url": "https://doi.org/10.1038/s41560-023-01340-6",
"journal": "Nature Energy",
"year": 2023,
"authors": "Levin, T.; Bistline, J.; Sioshansi, R.; Cole, W.; Kwon, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Simulation Tools",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "A phenazine-based high-capacity and high-stability electrochemical CO2 capture cell with coupled electricity storage",
"doi": "10.1038/s41560-023-01347-z",
"url": "https://doi.org/10.1038/s41560-023-01347-z",
"journal": "Nature Energy",
"year": 2023,
"authors": "Pang, S.; Jin, S.; Yang, F.; Alberts, M.; Li, L.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Energy consumption of current and future production of lithium-ion and post lithium-ion battery cells",
"doi": "10.1038/s41560-023-01355-z",
"url": "https://doi.org/10.1038/s41560-023-01355-z",
"journal": "Nature Energy",
"year": 2023,
"authors": "Degen, F.; Winter, M.; Bendig, D.; Tübke, J.",
"abstract": "AbstractDue to the rapidly increasing demand for electric vehicles, the need for battery cells is also increasing considerably. However, the production of battery cells requires enormous amounts of energy, which is expensive and produces greenhouse gas emissions. Here, by combining data from literature and from own research, we analyse how much energy lithium-ion battery (LIB) and post lithium-ion battery (PLIB) cell production requires on cell and macro-economic levels, currently and in the fut",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Revised estimates of racial and ethnic disparities in rooftop photovoltaic deployment in the United States",
"doi": "10.1038/s41893-023-01134-4",
"url": "https://doi.org/10.1038/s41893-023-01134-4",
"journal": "Nature Sustainability",
"year": 2023,
"authors": "Dokshin, F.; Thiede, B.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Reply to: Revised estimates of racial and ethnic disparities in rooftop photovoltaic deployment in the United States",
"doi": "10.1038/s41893-023-01135-3",
"url": "https://doi.org/10.1038/s41893-023-01135-3",
"journal": "Nature Sustainability",
"year": 2023,
"authors": "Sunter, D.; Castellanos, S.; Kammen, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A titanium dioxide sponge for capturing lead leaking from perovskite solar cells",
"doi": "10.1038/s41893-023-01149-x",
"url": "https://doi.org/10.1038/s41893-023-01149-x",
"journal": "Nature Sustainability",
"year": 2023,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Using solar farms as a platform for the ecological restoration of arid soils",
"doi": "10.1038/s41893-023-01108-6",
"url": "https://doi.org/10.1038/s41893-023-01108-6",
"journal": "Nature Sustainability",
"year": 2023,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Designing diversified renewable energy systems to balance multisector performance",
"doi": "10.1038/s41893-022-01033-0",
"url": "https://doi.org/10.1038/s41893-022-01033-0",
"journal": "Nature Sustainability",
"year": 2023,
"authors": "Gonzalez, J.; Tomlinson, J.; Martínez Ceseña, E.; Basheer, M.; Obuobie, E.",
"abstract": "AbstractRenewable energy system development and improved operation can mitigate climate change. In many regions, hydropower is called to counterbalance the temporal variability of intermittent renewables like solar and wind. However, using hydropower to integrate these renewables can affect aquatic ecosystems and increase cross-sectoral water conflicts. We develop and apply an artificial intelligence-assisted multisector design framework in Ghana, which shows how hydropower’s flexibility alone c",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Stability follows efficiency based on the analysis of a large perovskite solar cells ageing dataset",
"doi": "10.1038/s41467-023-40585-3",
"url": "https://doi.org/10.1038/s41467-023-40585-3",
"journal": "Nature Communications",
"year": 2023,
"authors": "Hartono, N.; Köbler, H.; Graniero, P.; Khenkin, M.; Schlatmann, R.",
"abstract": "AbstractWhile perovskite solar cells have reached competitive efficiency values during the last decade, stability issues remain a critical challenge to be addressed for pushing this technology towards commercialisation. In this study, we analyse a large homogeneous dataset of Maximum Power Point Tracking (MPPT) operational ageing data that we collected with a custom-built High-throughput Ageing System in the past 3 years. In total, 2,245 MPPT ageing curves are analysed which were obtained under ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Improved photovoltaic performance and robustness of all-polymer solar cells enabled by a polyfullerene guest acceptor",
"doi": "10.1038/s41467-023-37738-9",
"url": "https://doi.org/10.1038/s41467-023-37738-9",
"journal": "Nature Communications",
"year": 2023,
"authors": "Yu, H.; Wang, Y.; Zou, X.; Yin, J.; Shi, X.",
"abstract": "AbstractFullerene acceptors typically possess excellent electron-transporting properties and can work as guest components in ternary organic solar cells to enhance the charge extraction and efficiencies. However, conventional fullerene small molecules typically suffer from undesirable segregation and dimerization, thus limiting their applications in organic solar cells. Herein we report the use of a poly(fullerene-alt-xylene) acceptor (PFBO-C12) as guest component enables a significant efficienc",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "High-efficiency bio-inspired hybrid multi-generation photovoltaic leaf",
"doi": "10.1038/s41467-023-38984-7",
"url": "https://doi.org/10.1038/s41467-023-38984-7",
"journal": "Nature Communications",
"year": 2023,
"authors": "Huang, G.; Xu, J.; Markides, C.",
"abstract": "AbstractMost solar energy incident (>70%) upon commercial photovoltaic panels is dissipated as heat, increasing their operating temperature, and leading to significant deterioration in electrical performance. The solar utilisation efficiency of commercial photovoltaic panels is typically below 25%. Here, we demonstrate a hybrid multi-generation photovoltaic leaf concept that employs a biomimetic transpiration structure made of eco-friendly, low-cost and widely-available materials for effectiv",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Electrical performance of a fully reconfigurable series-parallel photovoltaic module",
"doi": "10.1038/s41467-023-43927-3",
"url": "https://doi.org/10.1038/s41467-023-43927-3",
"journal": "Nature Communications",
"year": 2023,
"authors": "Calcabrini, A.; Muttillo, M.; Zeman, M.; Manganiello, P.; Isabella, O.",
"abstract": "AbstractReconfigurable photovoltaic modules are a promising approach to improve the energy yield of partially shaded systems. So far, the feasibility of this concept has been evaluated through simulations or simplified experiments. In this work, we analyse the outdoor performance of a full-scale prototype of a series-parallel photovoltaic module with six reconfigurable blocks. Over a 4-month-long period, its performance was compared to a reference photovoltaic module with static interconnections",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Prolonged hydrogen production by engineered green algae photovoltaic power stations",
"doi": "10.1038/s41467-023-42529-3",
"url": "https://doi.org/10.1038/s41467-023-42529-3",
"journal": "Nature Communications",
"year": 2023,
"authors": "Gwon, H.; Park, G.; Yun, J.; Ryu, W.; Ahn, H.",
"abstract": "AbstractInterest in securing energy production channels from renewable sources is higher than ever due to the daily observation of the impacts of climate change. A key renewable energy harvesting strategy achieving carbon neutral cycles is artificial photosynthesis. Solar-to-fuel routes thus far relied on elaborately crafted semiconductors, undermining the cost-efficiency of the system. Furthermore, fuels produced required separation prior to utilization. As an artificial photosynthesis design, ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Precise synthesis and photovoltaic properties of giant molecule acceptors",
"doi": "10.1038/s41467-023-43846-3",
"url": "https://doi.org/10.1038/s41467-023-43846-3",
"journal": "Nature Communications",
"year": 2023,
"authors": "Zhuo, H.; Li, X.; Zhang, J.; Zhu, C.; He, H.",
"abstract": "AbstractSeries of giant molecule acceptors DY, TY and QY with two, three and four small molecule acceptor subunits are synthesized by a stepwise synthetic method and used for systematically investigating the influence of subunit numbers on the structure-property relationship from small molecule acceptor YDT to giant molecule acceptors and to polymerized small molecule acceptor PY-IT. Among these acceptors-based devices, the TY-based film shows proper donor/acceptor phase separation, higher charg",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Global green hydrogen-based steel opportunities surrounding high quality renewable energy and iron ore deposits",
"doi": "10.1038/s41467-023-38123-2",
"url": "https://doi.org/10.1038/s41467-023-38123-2",
"journal": "Nature Communications",
"year": 2023,
"authors": "Devlin, A.; Kossen, J.; Goldie-Jones, H.; Yang, A.",
"abstract": "AbstractThe steel sector currently accounts for 7% of global energy-related CO2 emissions and requires deep reform to disconnect from fossil fuels. Here, we investigate the market competitiveness of one of the widely considered decarbonisation routes for primary steel production: green hydrogen-based direct reduction of iron ore followed by electric arc furnace steelmaking. Through analysing over 300 locations by combined use of optimisation and machine learning, we show that competitive renewab",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Meteorological drivers of resource adequacy failures in current and high renewable Western U.S. power systems",
"doi": "10.1038/s41467-023-41875-6",
"url": "https://doi.org/10.1038/s41467-023-41875-6",
"journal": "Nature Communications",
"year": 2023,
"authors": "Sundar, S.; Craig, M.; Payne, A.; Brayshaw, D.; Lehner, F.",
"abstract": "AbstractPower system resource adequacy (RA), or its ability to continually balance energy supply and demand, underpins human and economic health. How meteorology affects RA and RA failures, particularly with increasing penetrations of renewables, is poorly understood. We characterize large-scale circulation patterns that drive RA failures in the Western U.S. at increasing wind and solar penetrations by integrating power system and synoptic meteorology methods. At up to 60% renewable penetration ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Grid integration feasibility and investment planning of offshore wind power under carbon-neutral transition in China",
"doi": "10.1038/s41467-023-37536-3",
"url": "https://doi.org/10.1038/s41467-023-37536-3",
"journal": "Nature Communications",
"year": 2023,
"authors": "Guo, X.; Chen, X.; Chen, X.; Sherman, P.; Wen, J.",
"abstract": "AbstractOffshore wind power, with accelerated declining levelized costs, is emerging as a critical building-block to fully decarbonize the world’s largest CO2 emitter, China. However, system integration barriers as well as system balancing costs have not been quantified yet. Here we develop a bottom-up model to test the grid accommodation capabilities and design the optimal investment plans for offshore wind power considering resource distributions, hourly power system simulations, and transmiss",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Electric vehicle batteries alone could satisfy short-term grid storage demand by as early as 2030",
"doi": "10.1038/s41467-022-35393-0",
"url": "https://doi.org/10.1038/s41467-022-35393-0",
"journal": "Nature Communications",
"year": 2023,
"authors": "Xu, C.; Behrens, P.; Gasper, P.; Smith, K.; Hu, M.",
"abstract": "AbstractThe energy transition will require a rapid deployment of renewable energy (RE) and electric vehicles (EVs) where other transit modes are unavailable. EV batteries could complement RE generation by providing short-term grid services. However, estimating the market opportunity requires an understanding of many socio-technical parameters and constraints. We quantify the global EV battery capacity available for grid storage using an integrated model incorporating future EV battery deployment",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Hidden delays of climate mitigation benefits in the race for electric vehicle deployment",
"doi": "10.1038/s41467-023-38182-5",
"url": "https://doi.org/10.1038/s41467-023-38182-5",
"journal": "Nature Communications",
"year": 2023,
"authors": "Ren, Y.; Sun, X.; Wolfram, P.; Zhao, S.; Tang, X.",
"abstract": "AbstractAlthough battery electric vehicles (BEVs) are climate-friendly alternatives to internal combustion engine vehicles (ICEVs), an important but often ignored fact is that the climate mitigation benefits of BEVs are usually delayed. The manufacture of BEVs is more carbon-intensive than that of ICEVs, leaving a greenhouse gas (GHG) debt to be paid back in the future use phase. Here we analyze millions of vehicle data from the Chinese market and show that the GHG break-even time (GBET) of Chin",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "China’s electric vehicle and climate ambitions jeopardized by surging critical material prices",
"doi": "10.1038/s41467-023-36957-4",
"url": "https://doi.org/10.1038/s41467-023-36957-4",
"journal": "Nature Communications",
"year": 2023,
"authors": "Wang, H.; Feng, K.; Wang, P.; Yang, Y.; Sun, L.",
"abstract": "AbstractThe adoption of electric vehicles (EVs) on a large scale is crucial for meeting the desired climate commitments, where affordability plays a vital role. However, the expected surge in prices of lithium, cobalt, nickel, and manganese, four critical materials in EV batteries, could hinder EV uptake. To explore these impacts in the context of China, the world’s largest EV market, we expand and enrich an integrated assessment model. We find that under a high material cost surge scenario, EVs",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Wind-driven device for cooling permafrost",
"doi": "10.1038/s41467-023-43375-z",
"url": "https://doi.org/10.1038/s41467-023-43375-z",
"journal": "Nature Communications",
"year": 2023,
"authors": "Qin, Y.; Wang, T.; Yuan, W.",
"abstract": "AbstractPreserving permafrost subgrade is a challenge due to global warming, but passive cooling techniques have limited success. Here, we present a novel wind-driven device that can cool permafrost subgrade by circulating coolant between the ambient air and the subgrade. It consists of a wind mill, a mechanical clutch with phase change material, and a fluid-circulation heat exchanger. The clutch engages and disengages through freezing and melting phase change material, while the device turns of",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Cooling Technologies",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Global land and water limits to electrolytic hydrogen production using wind and solar resources",
"doi": "10.1038/s41467-023-41107-x",
"url": "https://doi.org/10.1038/s41467-023-41107-x",
"journal": "Nature Communications",
"year": 2023,
"authors": "Tonelli, D.; Rosa, L.; Gabrielli, P.; Caldeira, K.; Parente, A.",
"abstract": "Abstract\n Proposals for achieving net-zero emissions by 2050 include scaling-up electrolytic hydrogen production, however, this poses technical, economic, and environmental challenges. One such challenge is for policymakers to ensure a sustainable future for the environment including freshwater and land resources while facilitating low-carbon hydrogen production using renewable wind and solar energy. We establish a country-by-country reference scenario for hydrogen demand in 205",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Exploiting nonaqueous self-stratified electrolyte systems toward large-scale energy storage",
"doi": "10.1038/s41467-023-37995-8",
"url": "https://doi.org/10.1038/s41467-023-37995-8",
"journal": "Nature Communications",
"year": 2023,
"authors": "Wang, Z.; Ji, H.; Zhou, J.; Zheng, Y.; Liu, J.",
"abstract": "AbstractBiphasic self-stratified batteries (BSBs) provide a new direction in battery philosophy for large-scale energy storage, which successfully reduces the cost and simplifies the architecture of redox flow batteries. However, current aqueous BSBs have intrinsic limits on the selection range of electrode materials and energy density due to the narrow electrochemical window of water. Thus, herein, we develop nonaqueous BSBs based on Li-S chemistry, which deliver an almost quadruple increase in",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Solar and wind",
"doi": "10.1038/s41558-023-01840-z",
"url": "https://doi.org/10.1038/s41558-023-01840-z",
"journal": "Nature Climate Change",
"year": 2023,
"authors": "Cheng, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Can solar radiation modification prevent a future collapse of the West Antarctic Ice Sheet?",
"doi": "10.1038/s41558-023-01739-9",
"url": "https://doi.org/10.1038/s41558-023-01739-9",
"journal": "Nature Climate Change",
"year": 2023,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Co-benefits of carbon neutrality in enhancing and stabilizing solar and wind energy",
"doi": "10.1038/s41558-023-01692-7",
"url": "https://doi.org/10.1038/s41558-023-01692-7",
"journal": "Nature Climate Change",
"year": 2023,
"authors": "Lei, Y.; Wang, Z.; Wang, D.; Zhang, X.; Che, H.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Retrofitted carbon capture and storage for negative emissions in China’s co-firing plants",
"doi": "10.1038/s41558-023-01756-8",
"url": "https://doi.org/10.1038/s41558-023-01756-8",
"journal": "Nature Climate Change",
"year": 2023,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Co-firing plants with retrofitted carbon capture and storage for power-sector emissions mitigation",
"doi": "10.1038/s41558-023-01736-y",
"url": "https://doi.org/10.1038/s41558-023-01736-y",
"journal": "Nature Climate Change",
"year": 2023,
"authors": "Fan, J.; Fu, J.; Zhang, X.; Li, K.; Zhou, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Wind influences the onset of a seasonally sea-ice-free Arctic",
"doi": "10.1038/s41558-023-01699-0",
"url": "https://doi.org/10.1038/s41558-023-01699-0",
"journal": "Nature Climate Change",
"year": 2023,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Slowdown of Antarctic Bottom Water export driven by climatic wind and sea-ice changes",
"doi": "10.1038/s41558-023-01695-4",
"url": "https://doi.org/10.1038/s41558-023-01695-4",
"journal": "Nature Climate Change",
"year": 2023,
"authors": "Zhou, S.; Meijers, A.; Meredith, M.; Abrahamsen, E.; Holland, P.",
"abstract": "AbstractAntarctic Bottom Water (AABW) is pivotal for oceanic heat and carbon sequestrations on multidecadal to millennial timescales. The Weddell Sea contributes nearly a half of global AABW through Weddell Sea Deep Water and denser underlying Weddell Sea Bottom Water that form on the continental shelves via sea-ice production. Here we report an observed 30% reduction of Weddell Sea Bottom Water volume since 1992, with the largest decrease in the densest classes. This is probably driven by a mul",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Photovoltaic fields largely outperform afforestation efficiency in global climate change mitigation strategies",
"doi": "10.1093/pnasnexus/pgad352",
"url": "https://doi.org/10.1093/pnasnexus/pgad352",
"journal": "npj Clean Energy",
"year": 2023,
"authors": "Stern, R.; Muller, J.; Rotenberg, E.; Amer, M.; Segev, L.",
"abstract": "Abstract\n Suppression of carbon emissions through photovoltaic (PV) energy and carbon sequestration through afforestation provides complementary climate change mitigation (CCM) strategies. However, a quantification of the “break-even time” (BET) required to offset the warming impacts of the reduced surface reflectivity of incoming solar radiation (albedo effect) is needed, though seldom accounted for in CCM strategies. Here, we quantify the CCM potential of PV fields and afforestat",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Toward carbon neutrality: Projecting a desert-based photovoltaic power network circumnavigating the globe",
"doi": "10.1093/pnasnexus/pgad097",
"url": "https://doi.org/10.1093/pnasnexus/pgad097",
"journal": "npj Clean Energy",
"year": 2023,
"authors": "Zhou, Y.; Liu, J.; Ge, W.; He, C.; Ma, J.",
"abstract": "Abstract\n Carbon, the human's most reliable fuel type in the past, must be neutralized in this century toward the Paris Agreement temperature goals. Solar power is widely believed a key fossil fuel substitute but suffers from the needs of large space occupation and huge energy storage for peak shaving. Here, we propose a solar network circumnavigating the globe to connecting large-scale desert photovoltaics among continents. By evaluating the generation potential of desert photovol",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "An all ambient, room temperature–processed solar cell from a bare silicon wafer",
"doi": "10.1093/pnasnexus/pgad067",
"url": "https://doi.org/10.1093/pnasnexus/pgad067",
"journal": "npj Clean Energy",
"year": 2023,
"authors": "Okamoto, K.; Fujita, Y.; Nishigaya, K.; Tanabe, K.",
"abstract": "Abstract\n Solar cells are a promising optoelectronic device for the simultaneous solution of energy resource and environmental problems. However, their high cost and slow, laborious production process so far severely hinder a sufficient widespread of clean, renewable photovoltaic energy as a major alternative electricity generator. This undesirable situation is mainly attributed to the fact that photovoltaic devices have been manufactured through a series of vacuum and high-tempera",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Bioinspired stability enhancement in deuterium-substituted organic–inorganic hybrid perovskite solar cells",
"doi": "10.1093/pnasnexus/pgad160",
"url": "https://doi.org/10.1093/pnasnexus/pgad160",
"journal": "npj Clean Energy",
"year": 2023,
"authors": "Tong, J.; Li, X.; Wang, J.; He, H.; Xu, T.",
"abstract": "Abstract\n In hybrid perovskite solar cells (PSCs), the reaction of hydrogens (H) located in the amino group of the organic A-site cations with their neighboring halides plays a central role in degradation. Inspired by the retarded biological activities of cells in heavy water, we replaced the light H atom with its abundant, twice-as-heavy, nonradioactive isotope, deuterium (D) to hamper the motion of H. This D substitution retarded the formation kinetics of the detrimental H halide",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Cementing CO2 into C-S-H: A step toward concrete carbon neutrality",
"doi": "10.1093/pnasnexus/pgad052",
"url": "https://doi.org/10.1093/pnasnexus/pgad052",
"journal": "npj Clean Energy",
"year": 2023,
"authors": "Stefaniuk, D.; Hajduczek, M.; Weaver, J.; Ulm, F.; Masic, A.",
"abstract": "Abstract\n Addressing the existing gap between currently available mitigation strategies for greenhouse gas emissions associated with ordinary Portland cement production and the 2050 carbon neutrality goal represents a significant challenge. In order to bridge this gap, one potential option is the direct gaseous sequestration and storage of anthropogenic CO2 in concrete through forced carbonate mineralization in both the cementing minerals and their aggregates. To better clarify the",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "A kirigami-enabled electrochromic wearable variable-emittance device for energy-efficient adaptive personal thermoregulation",
"doi": "10.1093/pnasnexus/pgad165",
"url": "https://doi.org/10.1093/pnasnexus/pgad165",
"journal": "npj Clean Energy",
"year": 2023,
"authors": "Chen, T.; Hong, Y.; Fu, C.; Nandi, A.; Xie, W.",
"abstract": "Abstract\n For centuries, people have put effort to improve the thermal performance of clothing to adapt to varying temperatures. However, most clothing we wear today only offers a single-mode insulation. The adoption of active thermal management devices, such as resistive heaters, Peltier coolers, and water recirculation, is limited by their excessive energy consumption and form factor for long-term, continuous, and personalized thermal comfort. In this paper, we developed a wearab",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Multisectoral drivers of decarbonizing battery electric vehicles in China",
"doi": "10.1093/pnasnexus/pgad123",
"url": "https://doi.org/10.1093/pnasnexus/pgad123",
"journal": "npj Clean Energy",
"year": 2023,
"authors": "Wang, F.; Zhang, S.; Zhao, Y.; Ma, Y.; Zhang, Y.",
"abstract": "Abstract\n China has made great progress in the electrification of passenger cars, and the sales of battery electric vehicles (BEVs) have exceeded 10%. We applied a life-cycle assessment (LCA) method to estimate the carbon dioxide (CO2) emissions of the past (2015), present (2020), and future (2030) BEVs, incorporating China's carbon peaking and neutrality policies, which would substantially reduce emissions from the electricity, operation efficiency, metallurgy, and battery manufac",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Flying cars economically favor battery electric over fuel cell and internal combustion engine",
"doi": "10.1093/pnasnexus/pgad019",
"url": "https://doi.org/10.1093/pnasnexus/pgad019",
"journal": "npj Clean Energy",
"year": 2023,
"authors": "Liu, M.; Hao, H.; Lin, Z.; He, X.; Qian, Y.",
"abstract": "Abstract\n Flying cars, essentially vertical takeoff and landing aircraft (VTOL), are an emerging, disruptive technology that is expected to reshape future transportation. VTOLs can be powered by battery electric, fuel cell, or internal combustion engine, which point to entirely different needs for industry expertise, research & development, supply chain, and infrastructure supports. A pre-analysis of the propulsion technology competition is crucial to avoid potential wrong dire",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "New estimates of the storage permanence and ocean co-benefits of enhanced rock weathering",
"doi": "10.1093/pnasnexus/pgad059",
"url": "https://doi.org/10.1093/pnasnexus/pgad059",
"journal": "npj Clean Energy",
"year": 2023,
"authors": "Kanzaki, Y.; Planavsky, N.; Reinhard, C.",
"abstract": "Abstract\n Avoiding many of the most severe consequences of anthropogenic climate change in the coming century will very likely require the development of “negative emissions technologies”—practices that lead to net carbon dioxide removal (CDR) from Earth's atmosphere. However, feedbacks within the carbon cycle place intrinsic limits on the long-term impact of CDR on atmospheric CO2 that are likely to vary across CDR technologies in ways that are poorly constrained. Here, we use an ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Hybrid nanofluid flow within cooling tube of photovoltaic-thermoelectric solar unit",
"doi": "10.1038/s41598-023-35428-6",
"url": "https://doi.org/10.1038/s41598-023-35428-6",
"journal": "Scientific Reports",
"year": 2023,
"authors": "Khalili, Z.; Sheikholeslami, M.; Momayez, L.",
"abstract": "AbstractIn this work, the thermoelectric generator (TEG) layer has been combined with conventional layers of photovoltaic-thermal (PVT) modules to use the waste heat and increase the efficiency. To reduce the cell temperature, there exists a cooling duct in the bottom of the PVT-TEG unit. Type of fluid within the duct and structure of duct can change the performance of the system. So, hybrid nanofluid (mixture of Fe3O4 and MWCNT with water) has been replaced instead of pure water and three vario",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "On the local warming potential of urban rooftop photovoltaic solar panels in cities",
"doi": "10.1038/s41598-023-40280-9",
"url": "https://doi.org/10.1038/s41598-023-40280-9",
"journal": "Scientific Reports",
"year": 2023,
"authors": "Khan, A.; Santamouris, M.",
"abstract": "AbstractUnderstanding and evaluating the implications of photovoltaic solar panels (PVSPs) deployment on urban settings, as well as the pessimistic effects of densely populated areas on PVSPs efficiency, is becoming incredibly valuable. Thus, the deployment of low-efficiency, low-cost, and widely available PVSPs may diminish total solar reflectance, raising the risks of PVSPs-based urban heating, particularly during the summertime heatwaves. This study employs and assesses physical parameterizat",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Author Correction: Hybrid nanofluid flow within cooling tube of photovoltaic-thermoelectric solar unit",
"doi": "10.1038/s41598-023-38125-6",
"url": "https://doi.org/10.1038/s41598-023-38125-6",
"journal": "Scientific Reports",
"year": 2023,
"authors": "Khalili, Z.; Sheikholeslami, M.; Momayez, L.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Application of artificial intelligence in green building concept for energy auditing using drone technology under different environmental conditions",
"doi": "10.1038/s41598-023-35245-x",
"url": "https://doi.org/10.1038/s41598-023-35245-x",
"journal": "Scientific Reports",
"year": 2023,
"authors": "Khan, O.; Parvez, M.; Alansari, M.; Farid, M.; Devarajan, Y.",
"abstract": "AbstractThermal losses through weak building envelope is responsible for global current energy crises. Application of artificial intelligence and drone setups in green buildings can help in providing the sustainable solution the world is striving for years. The contemporary research incorporates a novel concept of measuring the wearing thermal resistances in the building envelope with the aid of a drone system. The above procedure conducts a throughout building analysis by considering three prim",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Potential of low-enthalpy geothermal energy to degrade organic contaminants of emerging concern in urban groundwater",
"doi": "10.1038/s41598-023-29701-x",
"url": "https://doi.org/10.1038/s41598-023-29701-x",
"journal": "Scientific Reports",
"year": 2023,
"authors": "Pujades, E.; Jurado, A.; Scheiber, L.; Teixidó, M.; Criollo Manjarrez, R.",
"abstract": "AbstractLow-enthalpy geothermal energy (LEGE) is a carbon-free and renewable source to provide cooling and heating to infrastructures (e.g. buildings) by exchanging their temperature with that of the ground. The exchange of temperature modifies the groundwater temperature around LEGE installations, which may contribute to enhancing the capacity of aquifers to degrade organic contaminants of emerging concern (OCECs), whose presence is significantly increasing in urban aquifers. Here, we investiga",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Author Correction: Potential of low-enthalpy geothermal energy to degrade organic contaminants of emerging concern in urban groundwater",
"doi": "10.1038/s41598-023-33394-7",
"url": "https://doi.org/10.1038/s41598-023-33394-7",
"journal": "Scientific Reports",
"year": 2023,
"authors": "Pujades, E.; Jurado, A.; Scheiber, L.; Teixidó, M.; Criollo Manjarrez, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Analysis of renewable energy consumption and economy considering the joint optimal allocation of “renewable energy + energy storage + synchronous condenser”",
"doi": "10.1038/s41598-023-47401-4",
"url": "https://doi.org/10.1038/s41598-023-47401-4",
"journal": "Scientific Reports",
"year": 2023,
"authors": "Wang, Z.; Li, Q.; Kong, S.; Li, W.; Luo, J.",
"abstract": "Abstract\n As renewable energy becomes increasingly dominant in the energy mix, the power system is evolving towards high proportions of renewable energy installations and power electronics-based equipment. This transition introduces significant challenges to the grid’s safe and stable operation. On the one hand, renewable energy generation equipment inherently provides weak voltage support, necessitating improvements in the voltage support capacity at renewable energy grid point",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Electricity consumption in Finland influenced by climate effects of energetic particle precipitation",
"doi": "10.1038/s41598-023-47605-8",
"url": "https://doi.org/10.1038/s41598-023-47605-8",
"journal": "Scientific Reports",
"year": 2023,
"authors": "Juntunen, V.; Asikainen, T.",
"abstract": "AbstractIt is known that electricity consumption in many cold Northern countries depends greatly on prevailing outdoor temperatures especially during the winter season. On the other hand, recent research has demonstrated that solar wind driven energetic particle precipitation from space into the polar atmosphere can influence the stratospheric polar vortex and tropospheric weather patterns during winter. These changes are significant, e.g., in Northern Europe, especially in Finland. In this stud",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Wind power variation by wind veer characteristics with two wind farms",
"doi": "10.1038/s41598-023-37957-6",
"url": "https://doi.org/10.1038/s41598-023-37957-6",
"journal": "Scientific Reports",
"year": 2023,
"authors": "Tumenbayar, U.; Ko, K.",
"abstract": "AbstractTo clarify the wind veer characteristics with height and their effect on the wind turbine power outputs, an investigation was carried out at the wind farms with complex and simple terrains. A 2 MW and a 1.5 MW wind turbine were tested, each having an 80 m tall met mast and a ground lidar to capture wind veering. Wind veer conditions were divided into four types based on wind direction changes with height. The power deviation coefficient (PDC) and the revenue differences for the four type",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Optimized scheduling study of user side energy storage in cloud energy storage model",
"doi": "10.1038/s41598-023-45673-4",
"url": "https://doi.org/10.1038/s41598-023-45673-4",
"journal": "Scientific Reports",
"year": 2023,
"authors": "Wang, H.; Yao, H.; Zhou, J.; Guo, Q.",
"abstract": "AbstractWith the new round of power system reform, energy storage, as a part of power system frequency regulation and peaking, is an indispensable part of the reform. Among them, user-side small energy storage devices have the advantages of small size, flexible use and convenient application, but present decentralized characteristics in space. Therefore, the optimal allocation of small energy storage resources and the reduction of operating costs are urgent problems to be solved. In this study, ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Simulation of melting paraffin with graphene nanoparticles within a solar thermal energy storage system",
"doi": "10.1038/s41598-023-35361-8",
"url": "https://doi.org/10.1038/s41598-023-35361-8",
"journal": "Scientific Reports",
"year": 2023,
"authors": "Jafaryar, M.; Sheikholeslami, M.",
"abstract": "AbstractIn this paper, applying new structure and loading Graphene nanoparticles have been considered as promising techniques for enhancing thermal storage systems. The layers within the paraffin zone were made from aluminum and the melting temperature of paraffin is 319.55 K. The paraffin zone located in the middle section of the triplex tube and uniform hot temperatures (335 K) for both walls of annulus have been applied. Three geometries for the container were applied with changing the angle ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Bionic algae for solar hydrogen",
"doi": "10.1016/j.joule.2023.04.013",
"url": "https://doi.org/10.1016/j.joule.2023.04.013",
"journal": "Joule",
"year": 2023,
"authors": "Edwards, E.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Total equivalent energy efficiency metric for building-integrated photovoltaic windows",
"doi": "10.1016/j.joule.2023.11.010",
"url": "https://doi.org/10.1016/j.joule.2023.11.010",
"journal": "Joule",
"year": 2023,
"authors": "Bing, J.; McKenzie, D.; Stals, T.; Kypriotis, M.; Zheng, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A general illumination method to predict bifacial photovoltaic system performance",
"doi": "10.1016/j.joule.2022.12.005",
"url": "https://doi.org/10.1016/j.joule.2022.12.005",
"journal": "Joule",
"year": 2023,
"authors": "Tonita, E.; Valdivia, C.; Russell, A.; Martinez-Szewczyk, M.; Bertoni, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Barriers and opportunities for the deployment of CO2 electrolysis in net-zero emissions energy systems",
"doi": "10.1016/j.joule.2023.05.002",
"url": "https://doi.org/10.1016/j.joule.2023.05.002",
"journal": "Joule",
"year": 2023,
"authors": "Guerra, O.; Almajed, H.; Smith, W.; Somoza-Tornos, A.; Hodge, B.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Opportunities for battery aging mode diagnosis of renewable energy storage",
"doi": "10.1016/j.joule.2023.06.014",
"url": "https://doi.org/10.1016/j.joule.2023.06.014",
"journal": "Joule",
"year": 2023,
"authors": "Che, Y.; Hu, X.; Teodorescu, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Contract design for storage in hybrid electricity markets",
"doi": "10.1016/j.joule.2023.07.002",
"url": "https://doi.org/10.1016/j.joule.2023.07.002",
"journal": "Joule",
"year": 2023,
"authors": "Billimoria, F.; Simshauser, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "The role of electricity market design for energy storage in cost-efficient decarbonization",
"doi": "10.1016/j.joule.2023.05.014",
"url": "https://doi.org/10.1016/j.joule.2023.05.014",
"journal": "Joule",
"year": 2023,
"authors": "Qin, X.; Xu, B.; Lestas, I.; Guo, Y.; Sun, H.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Thermally activated batteries and their prospects for grid-scale energy storage",
"doi": "10.1016/j.joule.2023.02.009",
"url": "https://doi.org/10.1016/j.joule.2023.02.009",
"journal": "Joule",
"year": 2023,
"authors": "Li, M.; Weller, J.; Reed, D.; Sprenkle, V.; Li, G.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Battery passports for promoting electric vehicle resale and repurposing",
"doi": "10.1016/j.joule.2023.04.002",
"url": "https://doi.org/10.1016/j.joule.2023.04.002",
"journal": "Joule",
"year": 2023,
"authors": "Weng, A.; Dufek, E.; Stefanopoulou, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Electric-thermal energy storage using solid particles as storage media",
"doi": "10.1016/j.joule.2023.03.016",
"url": "https://doi.org/10.1016/j.joule.2023.03.016",
"journal": "Joule",
"year": 2023,
"authors": "Ma, Z.; Gifford, J.; Wang, X.; Martinek, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Revealing hidden predicaments to lithium-ion battery dynamics for electric vertical take-off and landing aircraft",
"doi": "10.1016/j.joule.2023.07.014",
"url": "https://doi.org/10.1016/j.joule.2023.07.014",
"journal": "Joule",
"year": 2023,
"authors": "Ayyaswamy, A.; Vishnugopi, B.; Mukherjee, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Trading rights to consume wind in presence of farm-farm interactions",
"doi": "10.1016/j.joule.2023.05.015",
"url": "https://doi.org/10.1016/j.joule.2023.05.015",
"journal": "Joule",
"year": 2023,
"authors": "Kenis, M.; Lanzilao, L.; Bruninx, K.; Meyers, J.; Delarue, E.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Quantum batteries: The future of energy storage?",
"doi": "10.1016/j.joule.2023.09.003",
"url": "https://doi.org/10.1016/j.joule.2023.09.003",
"journal": "Joule",
"year": 2023,
"authors": "Quach, J.; Cerullo, G.; Virgili, T.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Ultra-long-duration energy storage anywhere: Methanol with carbon cycling",
"doi": "10.1016/j.joule.2023.10.001",
"url": "https://doi.org/10.1016/j.joule.2023.10.001",
"journal": "Joule",
"year": 2023,
"authors": "Brown, T.; Hampp, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Aerogels, additive manufacturing, and energy storage",
"doi": "10.1016/j.joule.2023.03.021",
"url": "https://doi.org/10.1016/j.joule.2023.03.021",
"journal": "Joule",
"year": 2023,
"authors": "Chandrasekaran, S.; Lin, D.; Li, Y.; Worsley, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Zinc-ion batteries for stationary energy storage",
"doi": "10.1016/j.joule.2023.06.007",
"url": "https://doi.org/10.1016/j.joule.2023.06.007",
"journal": "Joule",
"year": 2023,
"authors": "Gourley, S.; Brown, R.; Adams, B.; Higgins, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Statistical and machine learning-based durability-testing strategies for energy storage",
"doi": "10.1016/j.joule.2023.03.008",
"url": "https://doi.org/10.1016/j.joule.2023.03.008",
"journal": "Joule",
"year": 2023,
"authors": "Harris, S.; Noack, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "The carbon intensity of integrated photovoltaics",
"doi": "10.1016/j.joule.2023.09.010",
"url": "https://doi.org/10.1016/j.joule.2023.09.010",
"journal": "Joule",
"year": 2023,
"authors": "Virtuani, A.; Borja Block, A.; Wyrsch, N.; Ballif, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar geoengineering and carbon removal significantly lower economic climate damages",
"doi": "10.1016/j.oneear.2023.09.004",
"url": "https://doi.org/10.1016/j.oneear.2023.09.004",
"journal": "One Earth",
"year": 2023,
"authors": "Liu, A.; Moore, J.; Cheng, X.; Chen, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar geoengineering research in the global public interest: A proposal for how to do it",
"doi": "10.1016/j.oneear.2023.11.012",
"url": "https://doi.org/10.1016/j.oneear.2023.11.012",
"journal": "One Earth",
"year": 2023,
"authors": "Buck, H.; Nicholson, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Increasing meteorological drought under climate change reduces terrestrial ecosystem productivity and carbon storage",
"doi": "10.1016/j.oneear.2023.09.007",
"url": "https://doi.org/10.1016/j.oneear.2023.09.007",
"journal": "One Earth",
"year": 2023,
"authors": "Zeng, Z.; Wu, W.; Li, Y.; Huang, C.; Zhang, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Optimization of solar and battery-based hybrid renewable energy system augmented with bioenergy and hydro energy-based dispatchable source",
"doi": "10.1016/j.isci.2022.105821",
"url": "https://doi.org/10.1016/j.isci.2022.105821",
"journal": "iScience",
"year": 2023,
"authors": "Memon, S.; Upadhyay, D.; Patel, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Resource potential mapping of bifacial photovoltaic systems in India",
"doi": "10.1016/j.isci.2023.108017",
"url": "https://doi.org/10.1016/j.isci.2023.108017",
"journal": "iScience",
"year": 2023,
"authors": "Johnson, J.; Manikandan, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "India’s photovoltaic potential amidst air pollution and land constraints",
"doi": "10.1016/j.isci.2023.107856",
"url": "https://doi.org/10.1016/j.isci.2023.107856",
"journal": "iScience",
"year": 2023,
"authors": "Ghosh, S.; Kumar, A.; Ganguly, D.; Dey, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Techno-economic assessment of implementing photovoltaic water villas in Maldives",
"doi": "10.1016/j.isci.2023.106658",
"url": "https://doi.org/10.1016/j.isci.2023.106658",
"journal": "iScience",
"year": 2023,
"authors": "Qi, L.; Wang, Y.; Song, J.; Yin, C.; Yan, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Small area high voltage photovoltaic module for high tolerance to partial shading",
"doi": "10.1016/j.isci.2023.106745",
"url": "https://doi.org/10.1016/j.isci.2023.106745",
"journal": "iScience",
"year": 2023,
"authors": "Fauzan, L.; Yun, M.; Sim, Y.; Lee, D.; Cha, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Ion-selective solar crystallizer with rivulets",
"doi": "10.1016/j.isci.2023.106926",
"url": "https://doi.org/10.1016/j.isci.2023.106926",
"journal": "iScience",
"year": 2023,
"authors": "Choi, J.; Na, J.; Jeon, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Nanostructured silicon photocatalysts for solar-driven fuel production",
"doi": "10.1016/j.isci.2023.106317",
"url": "https://doi.org/10.1016/j.isci.2023.106317",
"journal": "iScience",
"year": 2023,
"authors": "Putwa, S.; Curtis, I.; Dasog, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Hierarchical approach to evaluating storage requirements for renewable-energy-driven grids",
"doi": "10.1016/j.isci.2022.105900",
"url": "https://doi.org/10.1016/j.isci.2022.105900",
"journal": "iScience",
"year": 2023,
"authors": "Mahmud, Z.; Shiraishi, K.; Abido, M.; Sánchez-Pérez, P.; Kurtz, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Comprehensive assessment for different ranges of battery electric vehicles: Is it necessary to develop an ultra-long range battery electric vehicle?",
"doi": "10.1016/j.isci.2023.106654",
"url": "https://doi.org/10.1016/j.isci.2023.106654",
"journal": "iScience",
"year": 2023,
"authors": "Liu, X.; Zhao, F.; Geng, J.; Hao, H.; Liu, Z.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Cost, energy, and carbon footprint benefits of second-life electric vehicle battery use",
"doi": "10.1016/j.isci.2023.107195",
"url": "https://doi.org/10.1016/j.isci.2023.107195",
"journal": "iScience",
"year": 2023,
"authors": "Dong, Q.; Liang, S.; Li, J.; Kim, H.; Shen, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "An overview of deterministic and probabilistic forecasting methods of wind energy",
"doi": "10.1016/j.isci.2022.105804",
"url": "https://doi.org/10.1016/j.isci.2022.105804",
"journal": "iScience",
"year": 2023,
"authors": "Xie, Y.; Li, C.; Li, M.; Liu, F.; Taukenova, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Insights into electron wind force by a helical dislocation reconfiguration",
"doi": "10.1016/j.isci.2023.106870",
"url": "https://doi.org/10.1016/j.isci.2023.106870",
"journal": "iScience",
"year": 2023,
"authors": "Zhou, C.; Zhan, L.; Liu, C.; Huang, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Geographical balancing of wind power decreases storage needs in a 100% renewable European power sector",
"doi": "10.1016/j.isci.2023.107074",
"url": "https://doi.org/10.1016/j.isci.2023.107074",
"journal": "iScience",
"year": 2023,
"authors": "Roth, A.; Schill, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "The role of policies in reducing the cost of capital for offshore wind",
"doi": "10.1016/j.isci.2023.106945",
"url": "https://doi.org/10.1016/j.isci.2023.106945",
"journal": "iScience",
"year": 2023,
"authors": "Đukan, M.; Gumber, A.; Egli, F.; Steffen, B.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Small wind turbines and their potential for internet of things applications",
"doi": "10.1016/j.isci.2023.107674",
"url": "https://doi.org/10.1016/j.isci.2023.107674",
"journal": "iScience",
"year": 2023,
"authors": "Wang, H.; Xiong, B.; Zhang, Z.; Zhang, H.; Azam, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Reducing energy system model distortions from unintended storage cycling through variable costs",
"doi": "10.1016/j.isci.2022.105729",
"url": "https://doi.org/10.1016/j.isci.2022.105729",
"journal": "iScience",
"year": 2023,
"authors": "Parzen, M.; Kittel, M.; Friedrich, D.; Kiprakis, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Simulation Tools",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Dual-edged sword of ion migration in perovskite materials for simultaneous energy harvesting and storage application",
"doi": "10.1016/j.isci.2023.108172",
"url": "https://doi.org/10.1016/j.isci.2023.108172",
"journal": "iScience",
"year": 2023,
"authors": "Kumar, R.; Bag, M.; Jain, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Accurate and scalable representation of electric vehicles in energy system models: A virtual storage-based aggregation approach",
"doi": "10.1016/j.isci.2023.107816",
"url": "https://doi.org/10.1016/j.isci.2023.107816",
"journal": "iScience",
"year": 2023,
"authors": "Muessel, J.; Ruhnau, O.; Madlener, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Spatiotemporal analysis of the future carbon footprint of solar electricity in the United States by a dynamic life cycle assessment",
"doi": "10.1016/j.isci.2023.106188",
"url": "https://doi.org/10.1016/j.isci.2023.106188",
"journal": "iScience",
"year": 2023,
"authors": "Lu, J.; Tang, J.; Shan, R.; Li, G.; Rao, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Investigations on Na+, K+-ATPase energy consumption in ion flow of hydrophilic pores by THz unipolar stimulation",
"doi": "10.1016/j.isci.2023.107849",
"url": "https://doi.org/10.1016/j.isci.2023.107849",
"journal": "iScience",
"year": 2023,
"authors": "Bo, W.; Che, R.; Liu, Q.; Zhang, X.; Hou, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "A search for new back contacts for CdTe solar cells",
"doi": "10.1126/sciadv.ade3761",
"url": "https://doi.org/10.1126/sciadv.ade3761",
"journal": "Science Advances",
"year": 2023,
"authors": "Gorai, P.; Krasikov, D.; Grover, S.; Xiong, G.; Metzger, W.",
"abstract": "\n There is widespread interest in reaching the practical efficiency of cadmium telluride (CdTe) thin-film solar cells, which suffer from open-circuit voltage loss due to high surface recombination velocity and Schottky barrier at the back contact. Here, we focus on back contacts in the superstrate configuration with the goal of finding new materials that can provide improved passivation, electron reflection, and hole transport properties compared to the commonly used material,",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Nonlinear terahertz control of the lead halide perovskite lattice",
"doi": "10.1126/sciadv.adg3856",
"url": "https://doi.org/10.1126/sciadv.adg3856",
"journal": "Science Advances",
"year": 2023,
"authors": "Frenzel, M.; Cherasse, M.; Urban, J.; Wang, F.; Xiang, B.",
"abstract": "\n Lead halide perovskites (LHPs) have emerged as an excellent class of semiconductors for next-generation solar cells and optoelectronic devices. Tailoring physical properties by fine-tuning the lattice structures has been explored in these materials by chemical composition or morphology. Nevertheless, its dynamic counterpart, phonon-driven ultrafast material control, as contemporarily harnessed for oxide perovskites, has not yet been established. Here, we use intense THz electric fie",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Manipulating nitration and stabilization to achieve high energy",
"doi": "10.1126/sciadv.adk3754",
"url": "https://doi.org/10.1126/sciadv.adk3754",
"journal": "Science Advances",
"year": 2023,
"authors": "Singh, J.; Staples, R.; Shreeve, J.",
"abstract": "\n Nitro groups have played a central and decisive role in the development of the most powerful known energetic materials. Highly nitrated compounds are potential oxidizing agents, which could replace the environmentally hazardous used materials such as ammonium perchlorate. The scarcity of azole compounds with a large number of nitro groups is likely due to their inherent thermal instability and the limited number of ring sites available for bond formation. Now, the formation of the f",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Hydrothermal-derived black carbon as a source of recalcitrant dissolved organic carbon in the ocean",
"doi": "10.1126/sciadv.ade3807",
"url": "https://doi.org/10.1126/sciadv.ade3807",
"journal": "Science Advances",
"year": 2023,
"authors": "Yamashita, Y.; Mori, Y.; Ogawa, H.",
"abstract": "\n Deep-sea hydrothermal vents are a possible source of thermogenic dissolved black carbon (DBC), which is a component of recalcitrant dissolved organic carbon, but little is known about the distribution of hydrothermal DBC in the deep ocean. Here, we show basin-scale distributions of DBC along two transects in the eastern Pacific Ocean, which are located outside the jet-like hydrothermal plumes from the East Pacific Rise. The DBC concentration in the deep waters did not show a strong ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Will reshoring manufacturing of advanced electric vehicle battery support renewable energy transition and climate targets?",
"doi": "10.1126/sciadv.adg6740",
"url": "https://doi.org/10.1126/sciadv.adg6740",
"journal": "Science Advances",
"year": 2023,
"authors": "Lal, A.; You, F.",
"abstract": "Recent global logistics and geopolitical challenges draw attention to the potential raw material shortages for electric vehicle (EV) batteries. Here, we analyze the long-term energy and sustainability prospects to ensure a secure and resilient midstream and downstream value chain for the U.S. EV battery market amid uncertain market expansion and evolving battery technologies. With current battery technologies, reshoring and ally-shoring the midstream and downstream EV battery manufacturing will ",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Injectable, self-healing hydrogel adhesives with firm tissue adhesion and on-demand biodegradation for sutureless wound closure",
"doi": "10.1126/sciadv.adh4327",
"url": "https://doi.org/10.1126/sciadv.adh4327",
"journal": "Science Advances",
"year": 2023,
"authors": "Ren, H.; Zhang, Z.; Cheng, X.; Zou, Z.; Chen, X.",
"abstract": "\n Tissue adhesives have garnered extensive interest as alternatives and supplements to sutures, whereas major challenges still remain, including weak tissue adhesion, inadequate biocompatibility, and uncontrolled biodegradation. Here, injectable and biocompatible hydrogel adhesives are developed via catalyst-free\n o-\n phthalaldehyde/amine (hydrazide) cross-linking reaction. The hydrogels demonstrate rapid and firm adhesion to various tissues, and an\n o",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Swarming self-adhesive microgels enabled aneurysm on-demand embolization in physiological blood flow",
"doi": "10.1126/sciadv.adf9278",
"url": "https://doi.org/10.1126/sciadv.adf9278",
"journal": "Science Advances",
"year": 2023,
"authors": "Jin, D.; Wang, Q.; Chan, K.; Xia, N.; Yang, H.",
"abstract": "The recent rise of swarming microrobotics offers great promise in the revolution of minimally invasive embolization procedure for treating aneurysm. However, targeted embolization treatment of aneurysm using microrobots has significant challenges in the delivery capability and filling controllability. Here, we develop an interventional catheterization-integrated swarming microrobotic platform for aneurysm on-demand embolization in physiological blood flow. A pH-responsive self-healing hydrogel d",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Solar-powered simultaneous highly efficient seawater desalination and highly specific target extraction with smart DNA hydrogels",
"doi": "10.1126/sciadv.adj1677",
"url": "https://doi.org/10.1126/sciadv.adj1677",
"journal": "Science Advances",
"year": 2023,
"authors": "Liang, H.; Mu, Y.; Yin, M.; He, P.; Guo, W.",
"abstract": "Obtaining freshwater and important minerals from seawater with solar power facilitates the sustainable development of human society. Hydrogels have demonstrated great solar-powered water evaporation potential, but highly efficient and specific target extraction remains to be expanded. Here, we report the simultaneous highly efficient seawater desalination and specific extraction of uranium with smart DNA hydrogels. The DNA hydrogel greatly promoted the evaporation of water, with the water evapor",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Electric field–dependent phonon spectrum and heat conduction in ferroelectrics",
"doi": "10.1126/sciadv.add7194",
"url": "https://doi.org/10.1126/sciadv.add7194",
"journal": "Science Advances",
"year": 2023,
"authors": "Wooten, B.; Iguchi, R.; Tang, P.; Kang, J.; Uchida, K.",
"abstract": "\n This article shows experimentally that an external electric field affects the velocity of the longitudinal acoustic phonons (\n v\n LA\n ), thermal conductivity (κ), and diffusivity (\n D\n ) in a bulk lead zirconium titanate–based ferroelectric. Phonon conduction dominates κ, and the observations are due to changes in the phonon dispersion, not in the phonon scattering. This gives insight into the nature of the thermal fluctuations ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Toward highly effective loading of DNA in hydrogels for high-density and long-term information storage",
"doi": "10.1126/sciadv.adg9933",
"url": "https://doi.org/10.1126/sciadv.adg9933",
"journal": "Science Advances",
"year": 2023,
"authors": "Fei, Z.; Gupta, N.; Li, M.; Xiao, P.; Hu, X.",
"abstract": "\n Digital information, when converted into a DNA sequence, provides dense, stable, energy-efficient, and sustainable data storage. The most stable method for encapsulating DNA has been in an inorganic matrix of silica, iron oxide, or both, but are limited by low DNA uptake and complex recovery techniques. This study investigated a rationally designed thermally responsive functionally graded (TRFG) hydrogel as a simple and cost-effective method for storing DNA. The TRFG hydrogel shows ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Organic carbon generation in 3.5-billion-year-old basalt-hosted seafloor hydrothermal vent systems",
"doi": "10.1126/sciadv.add7925",
"url": "https://doi.org/10.1126/sciadv.add7925",
"journal": "Science Advances",
"year": 2023,
"authors": "Rasmussen, B.; Muhling, J.",
"abstract": "Carbon is the key element of life, and its origin in ancient sedimentary rocks is central to questions about the emergence and early evolution of life. The oldest well-preserved carbon occurs with fossil-like structures in 3.5-billion-year-old black chert. The carbonaceous matter, which is associated with hydrothermal chert-barite vent systems originating in underlying basaltic-komatiitic lavas, is thought to be derived from microbial life. Here, we show that 3.5-billion-year-old black chert vei",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "An all-Africa dataset of energy model “supply regions” for solar photovoltaic and wind power",
"doi": "10.1038/s41597-022-01786-5",
"url": "https://doi.org/10.1038/s41597-022-01786-5",
"journal": "Scientific Data",
"year": 2022,
"authors": "Sterl, S.; Hussain, B.; Miketa, A.; Li, Y.; Merven, B.",
"abstract": "AbstractWith solar and wind power generation reaching unprecedented growth rates globally, much research effort has recently gone into a comprehensive mapping of the worldwide potential of these variable renewable electricity (VRE) sources. From a perspective of energy systems analysis, the locations with the strongest resources may not necessarily be the best candidates for investment in new power plants, since the distance from existing grid and road infrastructures and the temporal variabilit",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A long-term reconstructed TROPOMI solar-induced fluorescence dataset using machine learning algorithms",
"doi": "10.1038/s41597-022-01520-1",
"url": "https://doi.org/10.1038/s41597-022-01520-1",
"journal": "Scientific Data",
"year": 2022,
"authors": "Chen, X.; Huang, Y.; Nie, C.; Zhang, S.; Wang, G.",
"abstract": "AbstractPhotosynthesis is a key process linking carbon and water cycles, and satellite-retrieved solar-induced chlorophyll fluorescence (SIF) can be a valuable proxy for photosynthesis. The TROPOspheric Monitoring Instrument (TROPOMI) on the Copernicus Sentinel-5P mission enables significant improvements in providing high spatial and temporal resolution SIF observations, but the short temporal coverage of the data records has limited its applications in long-term studies. This study uses machine",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "An Artificial Intelligence Dataset for Solar Energy Locations in India",
"doi": "10.1038/s41597-022-01499-9",
"url": "https://doi.org/10.1038/s41597-022-01499-9",
"journal": "Scientific Data",
"year": 2022,
"authors": "Ortiz, A.; Negandhi, D.; Mysorekar, S.; Nagaraju, S.; Kiesecker, J.",
"abstract": "AbstractRapid development of renewable energy sources, particularly solar photovoltaics (PV), is critical to mitigate climate change. As a result, India has set ambitious goals to install 500 gigawatts of solar energy capacity by 2030. Given the large footprint projected to meet renewables energy targets, the potential for land use conflicts over environmental values is high. To expedite development of solar energy, land use planners will need access to up-to-date and accurate geo-spatial inform",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar and wind power data from the Chinese State Grid Renewable Energy Generation Forecasting Competition",
"doi": "10.1038/s41597-022-01696-6",
"url": "https://doi.org/10.1038/s41597-022-01696-6",
"journal": "Scientific Data",
"year": 2022,
"authors": "Chen, Y.; Xu, J.",
"abstract": "AbstractAccurate solar and wind generation forecasting along with high renewable energy penetration in power grids throughout the world are crucial to the days-ahead power scheduling of energy systems. It is difficult to precisely forecast on-site power generation due to the intermittency and fluctuation characteristics of solar and wind energy. Solar and wind generation data from on-site sources are beneficial for the development of data-driven forecasting models. In this paper, an open dataset",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "NORA3-WP: A high-resolution offshore wind power dataset for the Baltic, North, Norwegian, and Barents Seas",
"doi": "10.1038/s41597-022-01451-x",
"url": "https://doi.org/10.1038/s41597-022-01451-x",
"journal": "Scientific Data",
"year": 2022,
"authors": "Solbrekke, I.; Sorteberg, A.",
"abstract": "AbstractWe present a new high resolution wind resource and wind power dataset named NORA3-WP. The dataset covers the North Sea, the Baltic Sea and parts of the Norwegian and Barents Seas. The 3-km Norwegian reanalysis (NORA3) forms the basis for the new dataset. NORA3-WP is an open access dataset intended for use in research, governmental management and for stakeholders to attain relevant wind resource and wind power information in the planning phase of a new wind farm project. The variables are",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Outdoor performance evaluation of a 2D materials-based perovskite solar farm",
"doi": "10.1038/s41560-022-01037-2",
"url": "https://doi.org/10.1038/s41560-022-01037-2",
"journal": "Nature Energy",
"year": 2022,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Integrated hydrological, power system and economic modelling of climate impacts on electricity demand and cost",
"doi": "10.1038/s41560-021-00958-8",
"url": "https://doi.org/10.1038/s41560-021-00958-8",
"journal": "Nature Energy",
"year": 2022,
"authors": "Webster, M.; Fisher-Vanden, K.; Kumar, V.; Lammers, R.; Perla, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Stylized least-cost analysis of flexible nuclear power in deeply decarbonized electricity systems considering wind and solar resources worldwide",
"doi": "10.1038/s41560-022-00979-x",
"url": "https://doi.org/10.1038/s41560-022-00979-x",
"journal": "Nature Energy",
"year": 2022,
"authors": "Duan, L.; Petroski, R.; Wood, L.; Caldeira, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Development of onshore wind turbine fleet counteracts climate change-induced reduction in global capacity factor",
"doi": "10.1038/s41560-022-01056-z",
"url": "https://doi.org/10.1038/s41560-022-01056-z",
"journal": "Nature Energy",
"year": 2022,
"authors": "Jung, C.; Schindler, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Towards a repair research agenda for off-grid solar e-waste in the Global South",
"doi": "10.1038/s41560-022-01103-9",
"url": "https://doi.org/10.1038/s41560-022-01103-9",
"journal": "Nature Energy",
"year": 2022,
"authors": "Munro, P.; Samarakoon, S.; Hansen, U.; Kearnes, M.; Bruce, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Rapid battery cost declines accelerate the prospects of all-electric interregional container shipping",
"doi": "10.1038/s41560-022-01065-y",
"url": "https://doi.org/10.1038/s41560-022-01065-y",
"journal": "Nature Energy",
"year": 2022,
"authors": "Kersey, J.; Popovich, N.; Phadke, A.",
"abstract": "AbstractInternational maritime shipping—powered by heavy fuel oil—is a major contributor to global CO2, SO2, and NOx emissions. The direct electrification of maritime vessels has been underexplored as a low-emission option despite its considerable efficiency advantage over electrofuels. Past studies on ship electrification have relied on outdated assumptions on battery cost, energy density values and available on-board space. We show that at battery prices of US$100 kWh−1 the electrification of ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Operating wind farm turbines collectively increases total energy production",
"doi": "10.1038/s41560-022-01094-7",
"url": "https://doi.org/10.1038/s41560-022-01094-7",
"journal": "Nature Energy",
"year": 2022,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Anticipating and defusing the role of conspiracy beliefs in shaping opposition to wind farms",
"doi": "10.1038/s41560-022-01164-w",
"url": "https://doi.org/10.1038/s41560-022-01164-w",
"journal": "Nature Energy",
"year": 2022,
"authors": "Winter, K.; Hornsey, M.; Pummerer, L.; Sassenberg, K.",
"abstract": "AbstractReaching net-zero targets requires massive increases in wind energy production, but efforts to build wind farms can meet stern local opposition. Here, inspired by related work on vaccinations, we examine whether opposition to wind farms is associated with a world view that conspiracies are common (‘conspiracy mentality’). In eight pre-registered studies (collectiveN = 4,170), we found moderate-to-large relationships between various indices of conspiracy beliefs and wind farm opposition. ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Collective wind farm operation based on a predictive model increases utility-scale energy production",
"doi": "10.1038/s41560-022-01085-8",
"url": "https://doi.org/10.1038/s41560-022-01085-8",
"journal": "Nature Energy",
"year": 2022,
"authors": "Howland, M.; Quesada, J.; Martínez, J.; Larrañaga, F.; Yadav, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Continuous transition from double-layer to Faradaic charge storage in confined electrolytes",
"doi": "10.1038/s41560-022-00993-z",
"url": "https://doi.org/10.1038/s41560-022-00993-z",
"journal": "Nature Energy",
"year": 2022,
"authors": "Fleischmann, S.; Zhang, Y.; Wang, X.; Cummings, P.; Wu, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Harnessing infrared solar energy with plasmonic energy upconversion",
"doi": "10.1038/s41893-022-00975-9",
"url": "https://doi.org/10.1038/s41893-022-00975-9",
"journal": "Nature Sustainability",
"year": 2022,
"authors": "Lian, Z.; Kobayashi, Y.; Vequizo, J.; Ranasinghe, C.; Yamakata, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Publisher Correction: Harnessing infrared solar energy with plasmonic energy upconversion",
"doi": "10.1038/s41893-022-01015-2",
"url": "https://doi.org/10.1038/s41893-022-01015-2",
"journal": "Nature Sustainability",
"year": 2022,
"authors": "Lian, Z.; Kobayashi, Y.; Vequizo, J.; Ranasinghe, C.; Yamakata, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar power challenges",
"doi": "10.1038/s41893-021-00845-w",
"url": "https://doi.org/10.1038/s41893-021-00845-w",
"journal": "Nature Sustainability",
"year": 2022,
"authors": "Laing, T.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Best practices for solar water production technologies",
"doi": "10.1038/s41893-022-00880-1",
"url": "https://doi.org/10.1038/s41893-022-00880-1",
"journal": "Nature Sustainability",
"year": 2022,
"authors": "Zhang, Y.; Tan, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Technology assessment of solar disinfection for drinking water treatment",
"doi": "10.1038/s41893-022-00915-7",
"url": "https://doi.org/10.1038/s41893-022-00915-7",
"journal": "Nature Sustainability",
"year": 2022,
"authors": "Jeon, I.; Ryberg, E.; Alvarez, P.; Kim, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "The aluminium demand risk of terawatt photovoltaics for net zero emissions by 2050",
"doi": "10.1038/s41893-021-00838-9",
"url": "https://doi.org/10.1038/s41893-021-00838-9",
"journal": "Nature Sustainability",
"year": 2022,
"authors": "Lennon, A.; Lunardi, M.; Hallam, B.; Dias, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Polymeric membranes with aligned zeolite nanosheets for sustainable energy storage",
"doi": "10.1038/s41893-022-00974-w",
"url": "https://doi.org/10.1038/s41893-022-00974-w",
"journal": "Nature Sustainability",
"year": 2022,
"authors": "Xia, Y.; Cao, H.; Xu, F.; Chen, Y.; Xia, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Earthquake breakdown energy scaling despite constant fracture energy",
"doi": "10.1038/s41467-022-28647-4",
"url": "https://doi.org/10.1038/s41467-022-28647-4",
"journal": "Nature Communications",
"year": 2022,
"authors": "Ke, C.; McLaskey, G.; Kammer, D.",
"abstract": "AbstractIn the quest to determine fault weakening processes that govern earthquake mechanics, it is common to infer the earthquake breakdown energy from seismological measurements. Breakdown energy is observed to scale with slip, which is often attributed to enhanced fault weakening with continued slip or at high slip rates, possibly caused by flash heating and thermal pressurization. However, seismologically inferred breakdown energy varies by more than six orders of magnitude and is frequently",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Temperature-dependent dual-mode thermal management device with net zero energy for year-round energy saving",
"doi": "10.1038/s41467-022-32528-1",
"url": "https://doi.org/10.1038/s41467-022-32528-1",
"journal": "Nature Communications",
"year": 2022,
"authors": "Zhang, Q.; Lv, Y.; Wang, Y.; Yu, S.; Li, C.",
"abstract": "AbstractReducing needs for heating and cooling from fossil energy is one of the biggest challenges, which demand accounts for almost half of global energy consumption, consequently resulting in complicated climatic and environmental issues. Herein, we demonstrate a high-performance, intelligently auto-switched and zero-energy dual-mode radiative thermal management device. By perceiving temperature to spontaneously modulate electromagnetic characteristics itself, the device achieves ~859.8 W m−2 ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Giant bulk photovoltaic effect driven by the wall-to-wall charge shift in WS2 nanotubes",
"doi": "10.1038/s41467-022-31018-8",
"url": "https://doi.org/10.1038/s41467-022-31018-8",
"journal": "Nature Communications",
"year": 2022,
"authors": "Kim, B.; Park, N.; Kim, J.",
"abstract": "AbstractThe intrinsic light–matter characteristics of transition-metal dichalcogenides have not only been of great scientific interest but have also provided novel opportunities for the development of advanced optoelectronic devices. Among the family of transition-metal dichalcogenide structures, the one-dimensional nanotube is particularly attractive because it produces a spontaneous photocurrent that is prohibited in its higher-dimensional counterparts. Here, we show that WS2 nanotubes exhibit",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Cosmogenic radionuclides reveal an extreme solar particle storm near a solar minimum 9125 years BP",
"doi": "10.1038/s41467-021-27891-4",
"url": "https://doi.org/10.1038/s41467-021-27891-4",
"journal": "Nature Communications",
"year": 2022,
"authors": "Paleari, C.; Mekhaldi, F.; Adolphi, F.; Christl, M.; Vockenhuber, C.",
"abstract": "AbstractDuring solar storms, the Sun expels large amounts of energetic particles (SEP) that can react with the Earth’s atmospheric constituents and produce cosmogenic radionuclides such as14C,10Be and36Cl. Here we present10Be and36Cl data measured in ice cores from Greenland and Antarctica. The data consistently show one of the largest10Be and36Cl production peaks detected so far, most likely produced by an extreme SEP event that hit Earth 9125 years BP (before present, i.e., before 1950 CE), i.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Decapod-inspired pigment modulation for active building facades",
"doi": "10.1038/s41467-022-31527-6",
"url": "https://doi.org/10.1038/s41467-022-31527-6",
"journal": "Nature Communications",
"year": 2022,
"authors": "Kay, R.; Katrycz, C.; Nitièma, K.; Jakubiec, J.; Hatton, B.",
"abstract": "AbstractTypical buildings are static structures, unable to adjust to dynamic temperature and daylight fluctuations. Adaptive facades that are responsive to these unsteady solar conditions can substantially reduce operational energy inefficiencies, indoor heating, cooling, and lighting costs, as well as greenhouse-gas emissions. Inspired by marine organisms that disperse pigments within their skin, we propose an adaptive building interface that uses reversible fluid injections to tune optical tra",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Resilience of urban public electric vehicle charging infrastructure to flooding",
"doi": "10.1038/s41467-022-30848-w",
"url": "https://doi.org/10.1038/s41467-022-30848-w",
"journal": "Nature Communications",
"year": 2022,
"authors": "Raman, G.; Raman, G.; Peng, J.",
"abstract": "AbstractAn adequate charging infrastructure is key to enabling high personal electric vehicle (EV) adoption rates. However, urban flooding—whose frequency and intensity are increasing due to climate change—may be an impediment. Here, we study how geographically-correlated outages due to floods impact public EV charging networks in Greater London. While we find no appreciable impact on the ability of battery EVs to serve typical urban driving behaviors, we observe disproportionate stresses on cha",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Pathway to a land-neutral expansion of Brazilian renewable fuel production",
"doi": "10.1038/s41467-022-30850-2",
"url": "https://doi.org/10.1038/s41467-022-30850-2",
"journal": "Nature Communications",
"year": 2022,
"authors": "Ramirez Camargo, L.; Castro, G.; Gruber, K.; Jewell, J.; Klingler, M.",
"abstract": "AbstractBiofuels are currently the only available bulk renewable fuel. They have, however, limited expansion potential due to high land requirements and associated risks for biodiversity, food security, and land conflicts. We therefore propose to increase output from ethanol refineries in a land-neutral methanol pathway: surplus CO2-streams from fermentation are combined with H2 from renewably powered electrolysis to synthesize methanol. We illustrate this pathway with the Brazilian sugarcane et",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Electrifying passenger road transport in India requires near-term electricity grid decarbonisation",
"doi": "10.1038/s41467-022-29620-x",
"url": "https://doi.org/10.1038/s41467-022-29620-x",
"journal": "Nature Communications",
"year": 2022,
"authors": "Abdul-Manan, A.; Gordillo Zavaleta, V.; Agarwal, A.; Kalghatgi, G.; Amer, A.",
"abstract": "AbstractBattery-electric vehicles (BEV) have emerged as a favoured technology solution to mitigate transport greenhouse gas (GHG) emissions in many non-Annex 1 countries, including India. GHG mitigation potentials of electric 4-wheelers in India depend critically on when and where they are charged: 40% reduction in the north-eastern states and more than 15% increase in the eastern/western regions today, with higher overall GHGs emitted when charged overnight and in the summer. Self-charging gaso",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Revealing the pulse-induced electroplasticity by decoupling electron wind force",
"doi": "10.1038/s41467-022-34333-2",
"url": "https://doi.org/10.1038/s41467-022-34333-2",
"journal": "Nature Communications",
"year": 2022,
"authors": "Li, X.; Zhu, Q.; Hong, Y.; Zheng, H.; Wang, J.",
"abstract": "AbstractMicro/nano electromechanical systems and nanodevices often suffer from degradation under electrical pulse. However, the origin of pulse-induced degradation remains an open question. Herein, we investigate the defect dynamics in Au nanocrystals under pulse conditions. By decoupling the electron wind force via a properly-designed in situ TEM electropulsing experiment, we reveal a non-directional migration of Σ3{112} incoherent twin boundary upon electropulsing, in contrast to the expected ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Reversible Power-to-Gas systems for energy conversion and storage",
"doi": "10.1038/s41467-022-29520-0",
"url": "https://doi.org/10.1038/s41467-022-29520-0",
"journal": "Nature Communications",
"year": 2022,
"authors": "Glenk, G.; Reichelstein, S.",
"abstract": "Abstract\n In the transition to decarbonized energy systems, Power-to-Gas (PtG) processes have the potential to connect the existing markets for electricity and hydrogen. Specifically, reversible PtG systems can convert electricity to hydrogen at times of ample power supply, yet they can also operate in the reverse direction to deliver electricity during times when power is relatively scarce. Here we develop a model for determining when reversible PtG systems are economically via",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Metrics and methods for moving from research to innovation in energy storage",
"doi": "10.1038/s41467-022-29257-w",
"url": "https://doi.org/10.1038/s41467-022-29257-w",
"journal": "Nature Communications",
"year": 2022,
"authors": "Pohlmann, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Giant energy-storage density with ultrahigh efficiency in lead-free relaxors via high-entropy design",
"doi": "10.1038/s41467-022-30821-7",
"url": "https://doi.org/10.1038/s41467-022-30821-7",
"journal": "Nature Communications",
"year": 2022,
"authors": "Chen, L.; Deng, S.; Liu, H.; Wu, J.; Qi, H.",
"abstract": "AbstractNext-generation advanced high/pulsed power capacitors rely heavily on dielectric ceramics with high energy storage performance. However, thus far, the huge challenge of realizing ultrahigh recoverable energy storage density (Wrec) accompanied by ultrahigh efficiency (η) still existed and has become a key bottleneck restricting the development of dielectric materials in cutting-edge energy storage applications. Here, we propose a high-entropy strategy to design “local polymorphic distorti",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Coupling aqueous zinc batteries and perovskite solar cells for simultaneous energy harvest, conversion and storage",
"doi": "10.1038/s41467-021-27791-7",
"url": "https://doi.org/10.1038/s41467-021-27791-7",
"journal": "Nature Communications",
"year": 2022,
"authors": "Chen, P.; Li, T.; Yang, Y.; Li, G.; Gao, X.",
"abstract": "AbstractSimultaneously harvesting, converting and storing solar energy in a single device represents an ideal technological approach for the next generation of power sources. Herein, we propose a device consisting of an integrated carbon-based perovskite solar cell module capable of harvesting solar energy (and converting it into electricity) and a rechargeable aqueous zinc metal cell. The electrochemical energy storage cell utilizes heterostructural Co2P-CoP-NiCoO2 nanometric arrays and zinc me",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "General heterostructure strategy of photothermal materials for scalable solar-heating hydrogen production without the consumption of artificial energy",
"doi": "10.1038/s41467-022-28364-y",
"url": "https://doi.org/10.1038/s41467-022-28364-y",
"journal": "Nature Communications",
"year": 2022,
"authors": "Li, Y.; Bai, X.; Yuan, D.; Zhang, F.; Li, B.",
"abstract": "AbstractSolar-heating catalysis has the potential to realize zero artificial energy consumption, which is restricted by the low ambient solar heating temperatures of photothermal materials. Here, we propose the concept of using heterostructures of black photothermal materials (such as Bi2Te3) and infrared insulating materials (Cu) to elevate solar heating temperatures. Consequently, the heterostructure of Bi2Te3and Cu (Bi2Te3/Cu) increases the 1 sun-heating temperature of Bi2Te3from 93 °C to 317",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A film-lever actuated switch technology for multifunctional, on-demand, and robust manipulation of liquids",
"doi": "10.1038/s41467-022-32676-4",
"url": "https://doi.org/10.1038/s41467-022-32676-4",
"journal": "Nature Communications",
"year": 2022,
"authors": "Liang, C.; Yang, Z.; Jiang, H.",
"abstract": "AbstractA lab-on-a-chip system with Point-of-Care testing capability offers rapid and accurate diagnostic potential and is useful in resource-limited settings where biomedical equipment and skilled professionals are not readily available. However, a Point-of-Care testing system that simultaneously possesses all required features of multifunctional dispensing, on-demand release, robust operations, and capability for long-term reagent storage is still a major challenge. Here, we describe a film-le",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Adenosine triphosphate-activated prodrug system for on-demand bacterial inactivation and wound disinfection",
"doi": "10.1038/s41467-022-32453-3",
"url": "https://doi.org/10.1038/s41467-022-32453-3",
"journal": "Nature Communications",
"year": 2022,
"authors": "Weng, Y.; Chen, H.; Chen, X.; Yang, H.; Chen, C.",
"abstract": "AbstractThe prodrug approach has emerged as a promising solution to combat bacterial resistance and enhance treatment efficacy against bacterial infections. Here, we report an adenosine triphosphate (ATP)-activated prodrug system for on-demand treatment of bacterial infection. The prodrug system benefits from the synergistic action of zeolitic imidazolate framework-8 and polyacrylamide hydrogel microsphere, which simultaneously transports indole-3-acetic acid and horseradish peroxidase in a sing",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Desert dunes transformed by end-of-century changes in wind climate",
"doi": "10.1038/s41558-022-01507-1",
"url": "https://doi.org/10.1038/s41558-022-01507-1",
"journal": "Nature Climate Change",
"year": 2022,
"authors": "Baas, A.; Delobel, L.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Climate change threatens terrestrial water storage over the Tibetan Plateau",
"doi": "10.1038/s41558-022-01443-0",
"url": "https://doi.org/10.1038/s41558-022-01443-0",
"journal": "Nature Climate Change",
"year": 2022,
"authors": "Li, X.; Long, D.; Scanlon, B.; Mann, M.; Li, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Feasibility of hybrid in-stream generator–photovoltaic systems for Amazonian off-grid communities",
"doi": "10.1093/pnasnexus/pgac077",
"url": "https://doi.org/10.1093/pnasnexus/pgac077",
"journal": "npj Clean Energy",
"year": 2022,
"authors": "Brown, E.; Johansen, I.; Bortoleto, A.; Pokhrel, Y.; Chaudhari, S.",
"abstract": "Abstract\n While there have been efforts to supply off-grid energy in the Amazon, these attempts have focused on low upfront costs and deployment rates. These “get-energy-quick” methods have almost solely adopted diesel generators, ignoring the environmental and social risks associated with the known noise and pollution of combustion engines. Alternatively, it is recommended, herein, to supply off-grid needs with renewable, distributed microgrids comprised of photovoltaics (PV) and ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Isotopic evidence for pallasite formation by impact mixing of olivine and metal during the first 10 million years of the Solar System",
"doi": "10.1093/pnasnexus/pgac015",
"url": "https://doi.org/10.1093/pnasnexus/pgac015",
"journal": "npj Clean Energy",
"year": 2022,
"authors": "Windmill, R.; Franchi, I.; Hellmann, J.; Schneider, J.; Spitzer, F.",
"abstract": "Abstract\n Pallasites are mixtures of core and mantle material that may have originated from the core–mantle boundary of a differentiated body. However, recent studies have introduced the possibility that they record an impact mix, in which case an isotopic difference between metal and silicates in pallasites may be expected. We report a statistically significant oxygen isotope disequilibrium between olivine and chromite in main group pallasites that implies the silicate and metal p",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Exploring the operational potential of the forest-photovoltaic utilizing the simulated solar tree",
"doi": "10.1038/s41598-022-17102-5",
"url": "https://doi.org/10.1038/s41598-022-17102-5",
"journal": "Scientific Reports",
"year": 2022,
"authors": "Um, D.",
"abstract": "AbstractThe aim of this study was to explore the operational potential of forest-photovoltaic by simulating solar tree installation. The forest-photovoltaic concept is to maintain carbon absorption activities in the lower part while acquiring solar energy by installing a photovoltaic structure on the upper part of forest land. This study was conducted by simulating solar tree installation using Google Earth satellite imagery in a mountainous area where an agrophotovoltaic system was already inst",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Diverse cloud and aerosol impacts on solar photovoltaic potential in southern China and northern India",
"doi": "10.1038/s41598-022-24208-3",
"url": "https://doi.org/10.1038/s41598-022-24208-3",
"journal": "Scientific Reports",
"year": 2022,
"authors": "Yang, J.; Yi, B.; Wang, S.; Liu, Y.; Li, Y.",
"abstract": "AbstractCloud and aerosol are two important modulators that influence the solar radiation reaching the earth’s surface. It is intriguing to find diverse impacts of clouds and aerosols over Southern China (SC) and Northern India (NI) which result in remarkable differences in the plane-of-array irradiance (POAI) that signifies the maximum available solar photovoltaic potential by combining the latest satellite retrieval results and modeling tools. By separating the impacts of cloud and aerosol on ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Inefficient Building Electrification Will Require Massive Buildout of Renewable Energy and Seasonal Energy Storage",
"doi": "10.1038/s41598-022-15628-2",
"url": "https://doi.org/10.1038/s41598-022-15628-2",
"journal": "Scientific Reports",
"year": 2022,
"authors": "Buonocore, J.; Salimifard, P.; Magavi, Z.; Allen, J.",
"abstract": "AbstractBuilding electrification is essential to many full-economy decarbonization pathways. However, current decarbonization modeling in the United States (U.S.) does not incorporate seasonal fluctuations in building energy demand, seasonal fluctuations in electricity demand of electrified buildings, or the ramifications of this extra demand for electricity generation. Here, we examine historical energy data in the U.S. to evaluate current seasonal fluctuation in total energy demand and managem",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Energy and thermal modelling of an office building to develop an artificial neural networks model",
"doi": "10.1038/s41598-022-12924-9",
"url": "https://doi.org/10.1038/s41598-022-12924-9",
"journal": "Scientific Reports",
"year": 2022,
"authors": "Santos-Herrero, J.; Lopez-Guede, J.; Flores Abascal, I.; Zulueta, E.",
"abstract": "AbstractNowadays everyone should be aware of the importance of reducing CO2 emissions which produce the greenhouse effect. In the field of construction, several options are proposed to reach nearly-Zero Energy Building (nZEB) standards. Obviously, before undertaking a modification in any part of a building focused on improving the energy performance, it is generally better to carry out simulations to evaluate its effectiveness. Using Artificial Neural Networks (ANNs) allows a digital twin of the",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Linking the long-term variability in global wave energy to swell climate and redefining suitable coasts for energy exploitation",
"doi": "10.1038/s41598-022-18935-w",
"url": "https://doi.org/10.1038/s41598-022-18935-w",
"journal": "Scientific Reports",
"year": 2022,
"authors": "Kamranzad, B.; Amarouche, K.; Akpinar, A.",
"abstract": "AbstractThe sustainability of wave energy linked to the intra- and inter-annual variability in wave climate is crucial in wave resource assessment. In this study, we quantify the dependency of stability of wave energy flux (power) on long-term variability of wind and wave climate to detect a relationship between them. We used six decades of re-analysis wind and simulated wave climate in the entire globe and using two 30-yearly periods, we showed that not only the previously suggested minimum per",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Collection mode choice of spent electric vehicle batteries: considering collection competition and third-party economies of scale",
"doi": "10.1038/s41598-022-10433-3",
"url": "https://doi.org/10.1038/s41598-022-10433-3",
"journal": "Scientific Reports",
"year": 2022,
"authors": "Li, X.",
"abstract": "AbstractWith the rapid development of the electric vehicle (EV) industry, the recycling of spent EV batteries has attracted considerable attention. The establishment and optimization of the collection mode is a key link in regulating the recycling of spent EV batteries. This paper investigates an EV battery supply chain including an EV manufacturer, an EV retailer, and a third-party collector and analyzes three dual-channel collection modes. The optimal pricing and collection decisions of the th",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Enhancing wind direction prediction of South Africa wind energy hotspots with Bayesian mixture modeling",
"doi": "10.1038/s41598-022-14383-8",
"url": "https://doi.org/10.1038/s41598-022-14383-8",
"journal": "Scientific Reports",
"year": 2022,
"authors": "Rad, N.; Bekker, A.; Arashi, M.",
"abstract": "AbstractWind energy production depends not only on wind speed but also on wind direction. Thus, predicting and estimating the wind direction for sites accurately will enhance measuring the wind energy potential. The uncertain nature of wind direction can be presented through probability distributions and Bayesian analysis can improve the modeling of the wind direction using the contribution of the prior knowledge to update the empirical shreds of evidence. This must align with the nature of the ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "SLM-processed MoS2/Mo2S3 nanocomposite for energy conversion/storage applications",
"doi": "10.1038/s41598-022-08921-7",
"url": "https://doi.org/10.1038/s41598-022-08921-7",
"journal": "Scientific Reports",
"year": 2022,
"authors": "Alinejadian, N.; Kazemi, S.; Odnevall, I.",
"abstract": "AbstractMoS2-based nanocomposites have been widely processed by a variety of conventional and 3D printing techniques. In this study, selective laser melting (SLM) has for the first time successfully been employed to tune the crystallographic structure of bulk MoS2 to a 2H/1T phase and to distribute Mo2S3 nanoparticles in-situ in MoS2/Mo2S3 nanocomposites used in electrochemical energy conversion/storage systems (EECSS). The remarkable results promote further research on and elucidate the applica",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Using thermal energy to enable fast charging of energy-dense batteries",
"doi": "10.1016/j.joule.2022.10.019",
"url": "https://doi.org/10.1016/j.joule.2022.10.019",
"journal": "Joule",
"year": 2022,
"authors": "Carter, R.; Love, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar energy storage as salt for cooling?",
"doi": "10.1016/j.joule.2022.02.012",
"url": "https://doi.org/10.1016/j.joule.2022.02.012",
"journal": "Joule",
"year": 2022,
"authors": "Swaminathan, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Nexus of solar and thermal photovoltaic technology could help solve the energy storage problem",
"doi": "10.1016/j.joule.2022.05.015",
"url": "https://doi.org/10.1016/j.joule.2022.05.015",
"journal": "Joule",
"year": 2022,
"authors": "Lenert, A.; Forrest, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Multilevel peel-off patterning of a prototype semitransparent organic photovoltaic module",
"doi": "10.1016/j.joule.2022.06.015",
"url": "https://doi.org/10.1016/j.joule.2022.06.015",
"journal": "Joule",
"year": 2022,
"authors": "Huang, X.; Fan, D.; Li, Y.; Forrest, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Performance optimization of monolithic all-perovskite tandem solar cells under standard and real-world solar spectra",
"doi": "10.1016/j.joule.2022.06.027",
"url": "https://doi.org/10.1016/j.joule.2022.06.027",
"journal": "Joule",
"year": 2022,
"authors": "Gao, Y.; Lin, R.; Xiao, K.; Luo, X.; Wen, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Beaming power: Photovoltaic laser power converters for power-by-light",
"doi": "10.1016/j.joule.2021.11.014",
"url": "https://doi.org/10.1016/j.joule.2021.11.014",
"journal": "Joule",
"year": 2022,
"authors": "Algora, C.; García, I.; Delgado, M.; Peña, R.; Vázquez, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Perovskite solar cells for building integrated photovoltaics—glazing applications",
"doi": "10.1016/j.joule.2022.06.003",
"url": "https://doi.org/10.1016/j.joule.2022.06.003",
"journal": "Joule",
"year": 2022,
"authors": "Bing, J.; Caro, L.; Talathi, H.; Chang, N.; Mckenzie, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Can CO2-assisted alkane dehydrogenation lead to negative CO2 emissions?",
"doi": "10.1016/j.joule.2021.12.008",
"url": "https://doi.org/10.1016/j.joule.2021.12.008",
"journal": "Joule",
"year": 2022,
"authors": "Biswas, A.; Xie, Z.; Chen, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Battery anode interphase construction via carbon capture",
"doi": "10.1016/j.joule.2022.04.019",
"url": "https://doi.org/10.1016/j.joule.2022.04.019",
"journal": "Joule",
"year": 2022,
"authors": "Shang, Y.; Kundu, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Understanding battery aging in grid energy storage systems",
"doi": "10.1016/j.joule.2022.09.014",
"url": "https://doi.org/10.1016/j.joule.2022.09.014",
"journal": "Joule",
"year": 2022,
"authors": "Kumtepeli, V.; Howey, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Policy-driven solar innovation and deployment remains critical for US grid decarbonization",
"doi": "10.1016/j.joule.2022.07.012",
"url": "https://doi.org/10.1016/j.joule.2022.07.012",
"journal": "Joule",
"year": 2022,
"authors": "O’Shaughnessy, E.; Ardani, K.; Denholm, P.; Mai, T.; Silverman, T.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A co-design framework for wind energy integrated with storage",
"doi": "10.1016/j.joule.2022.08.014",
"url": "https://doi.org/10.1016/j.joule.2022.08.014",
"journal": "Joule",
"year": 2022,
"authors": "Aziz, M.; Gayme, D.; Johnson, K.; Knox-Hayes, J.; Li, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "The path to high-rate energy storage goes through narrow channels",
"doi": "10.1016/j.joule.2021.12.019",
"url": "https://doi.org/10.1016/j.joule.2021.12.019",
"journal": "Joule",
"year": 2022,
"authors": "Simon, P.; Gogotsi, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Research priorities for seasonal energy storage using electrolyzers and fuel cells",
"doi": "10.1016/j.joule.2021.12.020",
"url": "https://doi.org/10.1016/j.joule.2021.12.020",
"journal": "Joule",
"year": 2022,
"authors": "Kempler, P.; Slack, J.; Baker, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Toward practical aqueous zinc-ion batteries for electrochemical energy storage",
"doi": "10.1016/j.joule.2022.06.002",
"url": "https://doi.org/10.1016/j.joule.2022.06.002",
"journal": "Joule",
"year": 2022,
"authors": "Li, C.; Jin, S.; Archer, L.; Nazar, L.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Toward solar-driven carbon recycling",
"doi": "10.1016/j.joule.2022.01.001",
"url": "https://doi.org/10.1016/j.joule.2022.01.001",
"journal": "Joule",
"year": 2022,
"authors": "Lin, H.; Luo, S.; Zhang, H.; Ye, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "The iron-energy nexus: A new paradigm for long-duration energy storage at scale and clean steelmaking",
"doi": "10.1016/j.oneear.2022.03.003",
"url": "https://doi.org/10.1016/j.oneear.2022.03.003",
"journal": "One Earth",
"year": 2022,
"authors": "Woodford, W.; Burger, S.; Ferrara, M.; Chiang, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Photovoltaic windows cut energy use and CO2 emissions by 40% in highly glazed buildings",
"doi": "10.1016/j.oneear.2022.10.014",
"url": "https://doi.org/10.1016/j.oneear.2022.10.014",
"journal": "One Earth",
"year": 2022,
"authors": "Wheeler, V.; Kim, J.; Daligault, T.; Rosales, B.; Engtrakul, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Improved air quality in China can enhance solar-power performance and accelerate carbon-neutrality targets",
"doi": "10.1016/j.oneear.2022.04.002",
"url": "https://doi.org/10.1016/j.oneear.2022.04.002",
"journal": "One Earth",
"year": 2022,
"authors": "Chen, S.; Lu, X.; Nielsen, C.; Geng, G.; He, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Building sustainability into battery value chains",
"doi": "10.1016/j.oneear.2022.03.002",
"url": "https://doi.org/10.1016/j.oneear.2022.03.002",
"journal": "One Earth",
"year": 2022,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Combined heat and electricity using thermal storage to decarbonize buildings and industries",
"doi": "10.1016/j.oneear.2022.03.001",
"url": "https://doi.org/10.1016/j.oneear.2022.03.001",
"journal": "One Earth",
"year": 2022,
"authors": "Lubner, S.; Prasher, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Carbon capture and storage investment: Fiddling while the planet burns",
"doi": "10.1016/j.oneear.2022.03.008",
"url": "https://doi.org/10.1016/j.oneear.2022.03.008",
"journal": "One Earth",
"year": 2022,
"authors": "Pratama, Y.; Mac Dowell, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Renewable energy targets and unintended storage cycling: Implications for energy modeling",
"doi": "10.1016/j.isci.2022.104002",
"url": "https://doi.org/10.1016/j.isci.2022.104002",
"journal": "iScience",
"year": 2022,
"authors": "Kittel, M.; Schill, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Electrified ammonia production as a commodity and energy storage medium to connect the food, energy, and trade sectors",
"doi": "10.1016/j.isci.2022.104724",
"url": "https://doi.org/10.1016/j.isci.2022.104724",
"journal": "iScience",
"year": 2022,
"authors": "Jain, M.; Muthalathu, R.; Wu, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "High-energy-density polymer dielectrics via compositional and structural tailoring for electrical energy storage",
"doi": "10.1016/j.isci.2022.104837",
"url": "https://doi.org/10.1016/j.isci.2022.104837",
"journal": "iScience",
"year": 2022,
"authors": "Cheng, R.; Wang, Y.; Men, R.; Lei, Z.; Song, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Into a cooler future with electricity generated from solar photovoltaic",
"doi": "10.1016/j.isci.2022.104208",
"url": "https://doi.org/10.1016/j.isci.2022.104208",
"journal": "iScience",
"year": 2022,
"authors": "Kan, X.; Hedenus, F.; Reichenberg, L.; Hohmeyer, O.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Opportunity of rooftop solar photovoltaic as a cost-effective and environment-friendly power source in megacities",
"doi": "10.1016/j.isci.2022.104890",
"url": "https://doi.org/10.1016/j.isci.2022.104890",
"journal": "iScience",
"year": 2022,
"authors": "Shi, M.; Lu, X.; Jiang, H.; Mu, Q.; Chen, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Construction and performance analysis of a solar thermophotovoltaic system targeting on the efficient utilization of AM0 space solar radiation",
"doi": "10.1016/j.isci.2022.105373",
"url": "https://doi.org/10.1016/j.isci.2022.105373",
"journal": "iScience",
"year": 2022,
"authors": "Chen, B.; Shan, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "The role of innovation for economy and sustainability of photovoltaic modules",
"doi": "10.1016/j.isci.2022.105208",
"url": "https://doi.org/10.1016/j.isci.2022.105208",
"journal": "iScience",
"year": 2022,
"authors": "Peters, I.; Hauch, J.; Brabec, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Printable high-efficiency organic ionic photovoltaic materials discovered by high-throughput first-principle calculations",
"doi": "10.1016/j.isci.2022.105639",
"url": "https://doi.org/10.1016/j.isci.2022.105639",
"journal": "iScience",
"year": 2022,
"authors": "Huang, P.; Yang, J.; Han, D.; Lu, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Accelerating the simulation of annual bifacial illumination of real photovoltaic systems with ray tracing",
"doi": "10.1016/j.isci.2021.103698",
"url": "https://doi.org/10.1016/j.isci.2021.103698",
"journal": "iScience",
"year": 2022,
"authors": "Ernst, M.; Conechado, G.; Asselineau, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Hybrid thermionic-photovoltaic converter with graphene-on-semiconductor heterojunction anode for efficient electricity generation",
"doi": "10.1016/j.isci.2022.105051",
"url": "https://doi.org/10.1016/j.isci.2022.105051",
"journal": "iScience",
"year": 2022,
"authors": "Qiu, H.; Lin, S.; Xu, H.; Hao, G.; Xiao, G.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Environmental and technical impacts of floating photovoltaic plants as an emerging clean energy technology",
"doi": "10.1016/j.isci.2022.105253",
"url": "https://doi.org/10.1016/j.isci.2022.105253",
"journal": "iScience",
"year": 2022,
"authors": "Pouran, H.; Padilha Campos Lopes, M.; Nogueira, T.; Alves Castelo Branco, D.; Sheng, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "High-resolution electricity generation model demonstrates suitability of high-altitude floating solar power",
"doi": "10.1016/j.isci.2022.104394",
"url": "https://doi.org/10.1016/j.isci.2022.104394",
"journal": "iScience",
"year": 2022,
"authors": "Eyring, N.; Kittner, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Electricity systems in the limit of free solar photovoltaics and continent-scale transmission",
"doi": "10.1016/j.isci.2022.104108",
"url": "https://doi.org/10.1016/j.isci.2022.104108",
"journal": "iScience",
"year": 2022,
"authors": "Duan, L.; Ruggles, T.; Caldeira, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Aqueous zinc batteries: Design principles toward organic cathodes for grid applications",
"doi": "10.1016/j.isci.2022.104204",
"url": "https://doi.org/10.1016/j.isci.2022.104204",
"journal": "iScience",
"year": 2022,
"authors": "Grignon, E.; Battaglia, A.; Schon, T.; Seferos, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Magnetic zinc-air batteries for storing wind and solar energy",
"doi": "10.1016/j.isci.2022.103837",
"url": "https://doi.org/10.1016/j.isci.2022.103837",
"journal": "iScience",
"year": 2022,
"authors": "Wang, K.; Pei, P.; Zuo, Y.; Wei, M.; Wang, H.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Regional representation of wind stakeholders’ end-of-life behaviors and their impact on wind blade circularity",
"doi": "10.1016/j.isci.2022.104734",
"url": "https://doi.org/10.1016/j.isci.2022.104734",
"journal": "iScience",
"year": 2022,
"authors": "Walzberg, J.; Cooperman, A.; Watts, L.; Eberle, A.; Carpenter, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Levelized cost-based learning analysis of utility-scale wind and solar in the United States",
"doi": "10.1016/j.isci.2022.104378",
"url": "https://doi.org/10.1016/j.isci.2022.104378",
"journal": "iScience",
"year": 2022,
"authors": "Bolinger, M.; Wiser, R.; O'Shaughnessy, E.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "The quantity-quality transition in the value of expanding wind and solar power generation",
"doi": "10.1016/j.isci.2022.104140",
"url": "https://doi.org/10.1016/j.isci.2022.104140",
"journal": "iScience",
"year": 2022,
"authors": "Antonini, E.; Ruggles, T.; Farnham, D.; Caldeira, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Storage power purchase agreements to enable the deployment of energy storage in Europe",
"doi": "10.1016/j.isci.2022.104701",
"url": "https://doi.org/10.1016/j.isci.2022.104701",
"journal": "iScience",
"year": 2022,
"authors": "Gabrielli, P.; Hilsheimer, P.; Sansavini, G.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Private vs. public value of U.S. residential battery storage operated for solar self-consumption",
"doi": "10.1016/j.isci.2022.104714",
"url": "https://doi.org/10.1016/j.isci.2022.104714",
"journal": "iScience",
"year": 2022,
"authors": "Forrester, S.; Barbose, G.; Miller, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Heterogeneous changes in electricity consumption patterns of residential distributed solar consumers due to battery storage adoption",
"doi": "10.1016/j.isci.2022.104352",
"url": "https://doi.org/10.1016/j.isci.2022.104352",
"journal": "iScience",
"year": 2022,
"authors": "Qiu, Y.; Xing, B.; Patwardhan, A.; Hultman, N.; Zhang, H.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Ferroelectric/paraelectric superlattices for energy storage",
"doi": "10.1126/sciadv.abn4880",
"url": "https://doi.org/10.1126/sciadv.abn4880",
"journal": "Science Advances",
"year": 2022,
"authors": "Aramberri, H.; Fedorova, N.; Íñiguez, J.",
"abstract": "\n The polarization response of antiferroelectrics to electric fields is such that the materials can store large energy densities, which makes them promising candidates for energy storage applications in pulsed-power technologies. However, relatively few materials of this kind are known. Here, we consider ferroelectric/paraelectric superlattices as artificial electrostatically engineered antiferroelectrics. Specifically, using high-throughput second-principles calculations, we engineer",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Addressing gain-bandwidth trade-off by a monolithically integrated photovoltaic transistor",
"doi": "10.1126/sciadv.abq0187",
"url": "https://doi.org/10.1126/sciadv.abq0187",
"journal": "Science Advances",
"year": 2022,
"authors": "Li, Y.; Chen, G.; Zhao, S.; Liu, C.; Zhao, N.",
"abstract": "\n The gain-bandwidth trade-off limits the development of high-performance photodetectors; i.e., the mutual restraint between the response speed and gain has intrinsically limited performance optimization of photomultiplication phototransistors and photodiodes. Here, we show that a monolithically integrated photovoltaic transistor can solve this dilemma. In this structure, the photovoltage generated by the superimposed perovskite solar cell, acting as a float gate, is amplified by the ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Ultrafast response of spontaneous photovoltaic effect in 3R-MoS\n 2\n –based heterostructures",
"doi": "10.1126/sciadv.ade3759",
"url": "https://doi.org/10.1126/sciadv.ade3759",
"journal": "Science Advances",
"year": 2022,
"authors": "Wu, J.; Yang, D.; Liang, J.; Werner, M.; Ostroumov, E.",
"abstract": "\n Rhombohedrally stacked MoS\n 2\n has been shown to exhibit spontaneous polarization down to the bilayer limit and can sustain a strong depolarization field when sandwiched between graphene. Such a field gives rise to a spontaneous photovoltaic effect without needing any p-n junction. In this work, we show that the photovoltaic effect has an external quantum efficiency of 10% for devices with only two atomic layers of MoS\n 2\n at low temperatu",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Compositions of carbonaceous-type asteroidal cores in the early solar system",
"doi": "10.1126/sciadv.abo5781",
"url": "https://doi.org/10.1126/sciadv.abo5781",
"journal": "Science Advances",
"year": 2022,
"authors": "Zhang, B.; Chabot, N.; Rubin, A.",
"abstract": "The parent cores of iron meteorites belong to the earliest accreted bodies in the solar system. These cores formed in two isotopically distinct reservoirs: noncarbonaceous (NC) type and carbonaceous (CC) type in the inner and outer solar system, respectively. We measured elemental compositions of CC-iron groups and used fractional crystallization modeling to reconstruct the bulk compositions and crystallization processes of their parent asteroidal cores. We found generally lower S and higher P i",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Electrostatic dust removal using adsorbed moisture–assisted charge induction for sustainable operation of solar panels",
"doi": "10.1126/sciadv.abm0078",
"url": "https://doi.org/10.1126/sciadv.abm0078",
"journal": "Science Advances",
"year": 2022,
"authors": "Panat, S.; Varanasi, K.",
"abstract": "Dust accumulation on solar panels is a major challenge, as it blocks a large portion of sunlight. Solar panels are therefore cleaned regularly using large quantities of pure water. Consumption of water for cleaning, especially in deserts, poses a substantial sustainability challenge. Here, we present a waterless approach for dust removal from solar panels using electrostatic induction. We find that dust particles, despite primarily consisting of insulating silica, can be electrostatically repell",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Erratum for the Research Article: “Heating events in the nascent solar system recorded by rare earth element isotopic fractionation in refractory inclusions”",
"doi": "10.1126/sciadv.abn5144",
"url": "https://doi.org/10.1126/sciadv.abn5144",
"journal": "Science Advances",
"year": 2022,
"authors": "",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Influence of voids on the thermal and light stability of perovskite solar cells",
"doi": "10.1126/sciadv.abo5977",
"url": "https://doi.org/10.1126/sciadv.abo5977",
"journal": "Science Advances",
"year": 2022,
"authors": "Wang, M.; Fei, C.; Uddin, M.; Huang, J.",
"abstract": "The formation of voids in perovskite films close to the buried interface has been reported during film deposition. These voids are thought to limits the efficiency and stability of perovskite solar cells (PSCs). Here, we studied the voids formed during operation in perovskite films that were optimized during the solution deposition process to avoid voids. New voids formed during operation are found to assemble along grain boundaries at the bottom interface, caused by the loss of residual solvent",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Natural separation of two primordial planetary reservoirs in an expanding solar protoplanetary disk",
"doi": "10.1126/sciadv.abm3045",
"url": "https://doi.org/10.1126/sciadv.abm3045",
"journal": "Science Advances",
"year": 2022,
"authors": "Liu, B.; Johansen, A.; Lambrechts, M.; Bizzarro, M.; Haugbølle, T.",
"abstract": "Meteorites display an isotopic composition dichotomy between noncarbonaceous (NC) and carbonaceous (CC) groups, indicating that planetesimal formation in the solar protoplanetary disk occurred in two distinct reservoirs. The prevailing view is that a rapidly formed Jupiter acted as a barrier between these reservoirs. We show a fundamental inconsistency in this model: If Jupiter is an efficient blocker of drifting pebbles, then the interior NC reservoir is depleted by radial drift within a few hu",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Impacts of wind power on air quality, premature mortality, and exposure disparities in the United States",
"doi": "10.1126/sciadv.abn8762",
"url": "https://doi.org/10.1126/sciadv.abn8762",
"journal": "Science Advances",
"year": 2022,
"authors": "Qiu, M.; Zigler, C.; Selin, N.",
"abstract": "Understanding impacts of renewable energy on air quality and associated human exposures is essential for informing future policy. We estimate the impacts of U.S. wind power on air quality and pollution exposure disparities using hourly data from 2011 to 2017 and detailed atmospheric chemistry modeling. Wind power associated with renewable portfolio standards in 2014 resulted in $2.0 billion in health benefits from improved air quality. A total of 29% and 32% of these health benefits accrued to r",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Probing dissolved CO\n 2\n (aq) in aqueous solutions for CO\n 2\n electroreduction and storage",
"doi": "10.1126/sciadv.abo0399",
"url": "https://doi.org/10.1126/sciadv.abo0399",
"journal": "Science Advances",
"year": 2022,
"authors": "Li, J.; Guo, J.; Dai, H.",
"abstract": "\n CO\n 2\n dissolved in aqueous solutions CO\n 2\n (aq) is important to CO\n 2\n capture, storage, photo-/electroreduction in the fight against global warming and to CO\n 2\n analysis in drinks. Here, we developed microscale infrared (IR) spectroscopy for in situ dynamic quantitating CO\n 2\n (aq). T",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Semiautomated synthesis of sequence-defined polymers for information storage",
"doi": "10.1126/sciadv.abl8614",
"url": "https://doi.org/10.1126/sciadv.abl8614",
"journal": "Science Advances",
"year": 2022,
"authors": "Lee, J.; Kwon, J.; Lee, S.; Jang, H.; Kim, D.",
"abstract": "\n Accelerated and parallel synthesis of sequence-defined polymers is an utmost challenge for realizing ultrahigh-density storage of digital information in molecular media. Here, we report step-economical synthesis of sequence-defined poly(\n l\n -lactic-\n co\n -glycolic acid)s (PLGAs) using continuous flow chemistry. A reactor performed the programmed coupling of the 2-bit storing building blocks to generate a library of their permutations in a",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Storage and analysis of light-matter entanglement in a fiber-integrated system",
"doi": "10.1126/sciadv.abn3919",
"url": "https://doi.org/10.1126/sciadv.abn3919",
"journal": "Science Advances",
"year": 2022,
"authors": "Rakonjac, J.; Corrielli, G.; Lago-Rivera, D.; Seri, A.; Mazzera, M.",
"abstract": "The deployment of a full-fledged quantum internet poses the challenge of finding adequate building blocks for entanglement distribution between remote quantum nodes. A practical system would combine propagation in optical fibers with quantum memories for light, leveraging on the existing communication network while featuring the scalability required to extend to network sizes. Here, we demonstrate a fiber-integrated quantum memory entangled with a photon at telecommunication wavelength. The stor",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "A measured energy use, solar production, and building air leakage dataset for a zero energy commercial building",
"doi": "10.1038/s41597-021-01082-8",
"url": "https://doi.org/10.1038/s41597-021-01082-8",
"journal": "Scientific Data",
"year": 2021,
"authors": "Agee, P.; Nikdel, L.; Roberts, S.",
"abstract": "AbstractThis paper provides an open dataset of measured energy use, solar energy production, and building air leakage data from a 328 m2 (3,531 ft2) all-electric, zero energy commercial building in Virginia, USA. Over two years of energy use data were collected at 1-hour intervals using circuit-level energy monitors. Over six years of solar energy production data were measured at 1-hour resolution by 56 microinverters (presented as daily and monthly data in this dataset). The building air leakag",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "An open tool for creating battery-electric vehicle time series from empirical data, emobpy",
"doi": "10.1038/s41597-021-00932-9",
"url": "https://doi.org/10.1038/s41597-021-00932-9",
"journal": "Scientific Data",
"year": 2021,
"authors": "Gaete-Morales, C.; Kramer, H.; Schill, W.; Zerrahn, A.",
"abstract": "AbstractThere is substantial research interest in how future fleets of battery-electric vehicles will interact with the power sector. Various types of energy models are used for respective analyses. They depend on meaningful input parameters, in particular time series of vehicle mobility, driving electricity consumption, grid availability, or grid electricity demand. As the availability of such data is highly limited, we introduce the open-source tool emobpy. Based on mobility statistics, physic",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Global offshore wind turbine dataset",
"doi": "10.1038/s41597-021-00982-z",
"url": "https://doi.org/10.1038/s41597-021-00982-z",
"journal": "Scientific Data",
"year": 2021,
"authors": "Zhang, T.; Tian, B.; Sengupta, D.; Zhang, L.; Si, Y.",
"abstract": "AbstractOffshore wind farms are widely adopted by coastal countries to obtain clean and green energy; their environmental impact has gained an increasing amount of attention. Although offshore wind farm datasets are commercially available via energy industries, records of the exact spatial distribution of individual wind turbines and their construction trajectories are rather incomplete, especially at the global level. Here, we construct a global remote sensing-based offshore wind turbine (OWT) ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Role of the social factors in success of solar photovoltaic reuse and recycle programmes",
"doi": "10.1038/s41560-021-00888-5",
"url": "https://doi.org/10.1038/s41560-021-00888-5",
"journal": "Nature Energy",
"year": 2021,
"authors": "Walzberg, J.; Carpenter, A.; Heath, G.",
"abstract": "Abstract\n By 2050, the cumulative mass of end-of-life photovoltaic (PV) modules may reach 80 Mt globally. The impacts could be mitigated by module recycling, repair and reuse; however, previous studies of PV circularity omit the consideration of critical social factors. Here we used an agent-based model to integrate social aspects with techno-economic factors, which provides a more realistic assessment of the circularity potential for previously studied interventions that assess",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A dataquake for solar cells",
"doi": "10.1038/s41560-021-00954-y",
"url": "https://doi.org/10.1038/s41560-021-00954-y",
"journal": "Nature Energy",
"year": 2021,
"authors": "Leite, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Economic, environmental and grid-resilience benefits of converting diesel trains to battery-electric",
"doi": "10.1038/s41560-021-00915-5",
"url": "https://doi.org/10.1038/s41560-021-00915-5",
"journal": "Nature Energy",
"year": 2021,
"authors": "Popovich, N.; Rajagopal, D.; Tasar, E.; Phadke, A.",
"abstract": "Abstract\n \n Nearly all US locomotives are propelled by diesel-electric drives, which emit 35 million tonnes of CO\n 2\n and produce air pollution causing about 1,000 premature deaths annually, accounting for approximately US$6.5 billion in annual health damage costs. Improved battery technology plus access to cheap renewable electricity open the possibility of battery-electric rail. Here we show that a 241-km range can be ac",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Feedbacks among electric vehicle adoption, charging, and the cost and installation of rooftop solar photovoltaics",
"doi": "10.1038/s41560-020-00746-w",
"url": "https://doi.org/10.1038/s41560-020-00746-w",
"journal": "Nature Energy",
"year": 2021,
"authors": "Kaufmann, R.; Newberry, D.; Xin, C.; Gopal, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Thermally modulated lithium iron phosphate batteries for mass-market electric vehicles",
"doi": "10.1038/s41560-020-00757-7",
"url": "https://doi.org/10.1038/s41560-020-00757-7",
"journal": "Nature Energy",
"year": 2021,
"authors": "Yang, X.; Liu, T.; Wang, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A global assessment of extreme wind speeds for wind energy applications",
"doi": "10.1038/s41560-020-00773-7",
"url": "https://doi.org/10.1038/s41560-020-00773-7",
"journal": "Nature Energy",
"year": 2021,
"authors": "Pryor, S.; Barthelmie, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Expert elicitation survey predicts 37% to 49% declines in wind energy costs by 2050",
"doi": "10.1038/s41560-021-00810-z",
"url": "https://doi.org/10.1038/s41560-021-00810-z",
"journal": "Nature Energy",
"year": 2021,
"authors": "Wiser, R.; Rand, J.; Seel, J.; Beiter, P.; Baker, E.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Linking solar and wind power in eastern Africa with operation of the Grand Ethiopian Renaissance Dam",
"doi": "10.1038/s41560-021-00799-5",
"url": "https://doi.org/10.1038/s41560-021-00799-5",
"journal": "Nature Energy",
"year": 2021,
"authors": "Sterl, S.; Fadly, D.; Liersch, S.; Koch, H.; Thiery, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "National growth dynamics of wind and solar power compared to the growth required for global climate targets",
"doi": "10.1038/s41560-021-00863-0",
"url": "https://doi.org/10.1038/s41560-021-00863-0",
"journal": "Nature Energy",
"year": 2021,
"authors": "Cherp, A.; Vinichenko, V.; Tosun, J.; Gordon, J.; Jewell, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Scenicness assessment of onshore wind sites with geotagged photographs and impacts on approval and cost-efficiency",
"doi": "10.1038/s41560-021-00842-5",
"url": "https://doi.org/10.1038/s41560-021-00842-5",
"journal": "Nature Energy",
"year": 2021,
"authors": "McKenna, R.; Weinand, J.; Mulalic, I.; Petrović, S.; Mainzer, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Beyond short-duration energy storage",
"doi": "10.1038/s41560-021-00837-2",
"url": "https://doi.org/10.1038/s41560-021-00837-2",
"journal": "Nature Energy",
"year": 2021,
"authors": "Guerra, O.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Rate capability and Ragone plots for phase change thermal energy storage",
"doi": "10.1038/s41560-021-00778-w",
"url": "https://doi.org/10.1038/s41560-021-00778-w",
"journal": "Nature Energy",
"year": 2021,
"authors": "Woods, J.; Mahvi, A.; Goyal, A.; Kozubal, E.; Odukomaiya, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "The design space for long-duration energy storage in decarbonized power systems",
"doi": "10.1038/s41560-021-00796-8",
"url": "https://doi.org/10.1038/s41560-021-00796-8",
"journal": "Nature Energy",
"year": 2021,
"authors": "Sepulveda, N.; Jenkins, J.; Edington, A.; Mallapragada, D.; Lester, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Life cycle assessment of recycling strategies for perovskite photovoltaic modules",
"doi": "10.1038/s41893-021-00737-z",
"url": "https://doi.org/10.1038/s41893-021-00737-z",
"journal": "Nature Sustainability",
"year": 2021,
"authors": "Tian, X.; Stranks, S.; You, F.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Closing the loop for perovskite solar modules",
"doi": "10.1038/s41893-021-00735-1",
"url": "https://doi.org/10.1038/s41893-021-00735-1",
"journal": "Nature Sustainability",
"year": 2021,
"authors": "Parisi, M.; Sinicropi, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Persistent CO2 photocatalysis for solar fuels in the dark",
"doi": "10.1038/s41893-021-00681-y",
"url": "https://doi.org/10.1038/s41893-021-00681-y",
"journal": "Nature Sustainability",
"year": 2021,
"authors": "Loh, J.; Kherani, N.; Ozin, G.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "On-device lead-absorbing tapes for sustainable perovskite solar cells",
"doi": "10.1038/s41893-021-00789-1",
"url": "https://doi.org/10.1038/s41893-021-00789-1",
"journal": "Nature Sustainability",
"year": 2021,
"authors": "Li, X.; Zhang, F.; Wang, J.; Tong, J.; Xu, T.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Global bioenergy with carbon capture and storage potential is largely constrained by sustainable irrigation",
"doi": "10.1038/s41893-021-00740-4",
"url": "https://doi.org/10.1038/s41893-021-00740-4",
"journal": "Nature Sustainability",
"year": 2021,
"authors": "Ai, Z.; Hanasaki, N.; Heck, V.; Hasegawa, T.; Fujimori, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Energy harvesting optical modulators with sub-attojoule per bit electrical energy consumption",
"doi": "10.1038/s41467-021-22460-1",
"url": "https://doi.org/10.1038/s41467-021-22460-1",
"journal": "Nature Communications",
"year": 2021,
"authors": "de Cea, M.; Atabaki, A.; Ram, R.",
"abstract": "AbstractThe light input to a semiconductor optical modulator can constitute an electrical energy supply through the photovoltaic effect, which is unexploited in conventional modulators. In this work, we leverage this effect to demonstrate a silicon modulator with sub-aJ/bit electrical energy consumption at sub-GHz speeds, relevant for massively parallel input/output systems such as neural interfaces. We use the parasitic photovoltaic current to self-charge the modulator and a single transistor t",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Novel symmetrical bifacial flexible CZTSSe thin film solar cells for indoor photovoltaic applications",
"doi": "10.1038/s41467-021-23343-1",
"url": "https://doi.org/10.1038/s41467-021-23343-1",
"journal": "Nature Communications",
"year": 2021,
"authors": "Deng, H.; Sun, Q.; Yang, Z.; Li, W.; Yan, Q.",
"abstract": "AbstractEnvironment-friendly flexible Cu2ZnSn(S,Se)4 (CZTSSe) solar cells show great potentials for indoor photovoltaic market. Indoor lighting is weak and multi-directional, thus the researches of photovoltaic device structures, techniques and performances face new challenges. Here, we design symmetrical bifacial CZTSSe solar cells on flexible Mo-foil substrate to efficiently harvest the indoor energy. Such devices are fabricated by double-sided deposition techniques to ensure bifacial consiste",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Pure spin photocurrent in non-centrosymmetric crystals: bulk spin photovoltaic effect",
"doi": "10.1038/s41467-021-24541-7",
"url": "https://doi.org/10.1038/s41467-021-24541-7",
"journal": "Nature Communications",
"year": 2021,
"authors": "Xu, H.; Wang, H.; Zhou, J.; Li, J.",
"abstract": "AbstractSpin current generators are critical components for spintronics-based information processing. In this work, we theoretically and computationally investigate the bulk spin photovoltaic (BSPV) effect for creating DC spin current under light illumination. The only requirement for BSPV is inversion symmetry breaking, thus it applies to a broad range of materials and can be readily integrated with existing semiconductor technologies. The BSPV effect is a cousin of the bulk photovoltaic (BPV) ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Enhanced bulk photovoltaic effect in two-dimensional ferroelectric CuInP2S6",
"doi": "10.1038/s41467-021-26200-3",
"url": "https://doi.org/10.1038/s41467-021-26200-3",
"journal": "Nature Communications",
"year": 2021,
"authors": "Li, Y.; Fu, J.; Mao, X.; Chen, C.; Liu, H.",
"abstract": "Abstract\n \n The photocurrent generation in photovoltaics relies essentially on the interface of p-n junction or Schottky barrier with the photoelectric efficiency constrained by the Shockley-Queisser limit. The recent progress has shown a promising route to surpass this limit via the bulk photovoltaic effect for crystals without inversion symmetry. Here we report the bulk photovoltaic effect in two-dimensional ferroelectric CuInP\n 2\n ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Direct observation of trap-assisted recombination in organic photovoltaic devices",
"doi": "10.1038/s41467-021-23870-x",
"url": "https://doi.org/10.1038/s41467-021-23870-x",
"journal": "Nature Communications",
"year": 2021,
"authors": "Zeiske, S.; Sandberg, O.; Zarrabi, N.; Li, W.; Meredith, P.",
"abstract": "AbstractTrap-assisted recombination caused by localised sub-gap states is one of the most important first-order loss mechanism limiting the power-conversion efficiency of all solar cells. The presence and relevance of trap-assisted recombination in organic photovoltaic devices is still a matter of some considerable ambiguity and debate, hindering the field as it seeks to deliver ever higher efficiencies and ultimately a viable new solar photovoltaic technology. In this work, we show that trap-as",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Anomalous circular bulk photovoltaic effect in BiFeO3 thin films with stripe-domain pattern",
"doi": "10.1038/s41467-020-20446-z",
"url": "https://doi.org/10.1038/s41467-020-20446-z",
"journal": "Nature Communications",
"year": 2021,
"authors": "Knoche, D.; Steimecke, M.; Yun, Y.; Mühlenbein, L.; Bhatnagar, A.",
"abstract": "AbstractMultiferroic bismuth ferrite, BiFeO3, offers a vast landscape to study the interplay between different ferrroic orders. Another aspect which is equally exciting, and yet underutilized, is the possibility of large-scale ordering of domains. Along with symmetry-driven bulk photovoltaic effect, BiFeO3 presents opportunities to conceptualize novel light-based devices. In this work, we investigate the evolution of the bulk photovoltaic effect in BiFeO3 thin films with stripe-domain pattern as",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Limited application of reflective surfaces can mitigate urban heat pollution",
"doi": "10.1038/s41467-021-23634-7",
"url": "https://doi.org/10.1038/s41467-021-23634-7",
"journal": "Nature Communications",
"year": 2021,
"authors": "Sen, S.; Khazanovich, L.",
"abstract": "AbstractElevated air temperatures in urban neighborhoods due to the Urban Heat Island effect is a form of heat pollution that causes thermal discomfort, higher energy consumption, and deteriorating public health. Mitigation measures can be expensive, with the need to maximize benefits from limited resources. Here we show that significant mitigation can be achieved through a limited application of reflective surfaces. We use a Computational Fluid Dynamics model to resolve the air temperature with",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Cooling Technologies",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Pricing indirect emissions accelerates low—carbon transition of US light vehicle sector",
"doi": "10.1038/s41467-021-27247-y",
"url": "https://doi.org/10.1038/s41467-021-27247-y",
"journal": "Nature Communications",
"year": 2021,
"authors": "Wolfram, P.; Weber, S.; Gillingham, K.; Hertwich, E.",
"abstract": "Abstract\n \n Large–scale electric vehicle adoption can greatly reduce emissions from vehicle tailpipes. However, analysts have cautioned that it can come with increased indirect emissions from electricity and battery production that are not commonly regulated by transport policies. We combine integrated energy modeling and life cycle assessment to compare optimal policy scenarios that price emissions at the tailpipe only, versus both tailpipe and indirect emiss",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Prospective contributions of biomass pyrolysis to China’s 2050 carbon reduction and renewable energy goals",
"doi": "10.1038/s41467-021-21868-z",
"url": "https://doi.org/10.1038/s41467-021-21868-z",
"journal": "Nature Communications",
"year": 2021,
"authors": "Yang, Q.; Zhou, H.; Bartocci, P.; Fantozzi, F.; Mašek, O.",
"abstract": "AbstractRecognizing that bioenergy with carbon capture and storage (BECCS) may still take years to mature, this study focuses on another photosynthesis-based, negative-carbon technology that is readier to implement in China: biomass intermediate pyrolysis poly-generation (BIPP). Here we find that a BIPP system can be profitable without subsidies, while its national deployment could contribute to a 61% reduction of carbon emissions per unit of gross domestic product in 2030 compared to 2005 and r",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Negative Emission Technologies",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "High resolution global spatiotemporal assessment of rooftop solar photovoltaics potential for renewable electricity generation",
"doi": "10.1038/s41467-021-25720-2",
"url": "https://doi.org/10.1038/s41467-021-25720-2",
"journal": "Nature Communications",
"year": 2021,
"authors": "Joshi, S.; Mittal, S.; Holloway, P.; Shukla, P.; Ó Gallachóir, B.",
"abstract": "AbstractRooftop solar photovoltaics currently account for 40% of the global solar photovoltaics installed capacity and one-fourth of the total renewable capacity additions in 2018. Yet, only limited information is available on its global potential and associated costs at a high spatiotemporal resolution. Here, we present a high-resolution global assessment of rooftop solar photovoltaics potential using big data, machine learning and geospatial analysis. We analyse 130 million km2of global land s",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Global coastal attenuation of wind-waves observed with radar altimetry",
"doi": "10.1038/s41467-021-23982-4",
"url": "https://doi.org/10.1038/s41467-021-23982-4",
"journal": "Nature Communications",
"year": 2021,
"authors": "Passaro, M.; Hemer, M.; Quartly, G.; Schwatke, C.; Dettmering, D.",
"abstract": "AbstractCoastal studies of wave climate and evaluations of wave energy resources are mainly regional and based on the use of computationally very expensive models or a network of in-situ data. Considering the significant wave height, satellite radar altimetry provides an established global and relatively long-term source, whose coastal data are nevertheless typically flagged as unreliable within 30 km of the coast. This study exploits the reprocessing of the radar altimetry signals with a dedica",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Electrochemical energy storage performance of 2D nanoarchitectured hybrid materials",
"doi": "10.1038/s41467-021-23819-0",
"url": "https://doi.org/10.1038/s41467-021-23819-0",
"journal": "Nature Communications",
"year": 2021,
"authors": "Wang, J.; Malgras, V.; Sugahara, Y.; Yamauchi, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Interstitial boron-doped mesoporous semiconductor oxides for ultratransparent energy storage",
"doi": "10.1038/s41467-020-20352-4",
"url": "https://doi.org/10.1038/s41467-020-20352-4",
"journal": "Nature Communications",
"year": 2021,
"authors": "Zhi, J.; Zhou, M.; Zhang, Z.; Reiser, O.; Huang, F.",
"abstract": "AbstractRealizing transparent and energy-dense supercapacitor is highly challenging, as there is a trade-off between energy storing capability and transparency in the active material film. We report here that interstitial boron-doped mesoporous semiconductor oxide shows exceptional electrochemical capacitance which rivals other pseudocapacitive materials, while maintaining its transparent characteristic. This improvement is credited to the robust redox reactions at interstitial boron-associated ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Author Correction: Interstitial boron-doped mesoporous semiconductor oxides for ultratransparent energy storage",
"doi": "10.1038/s41467-021-21705-3",
"url": "https://doi.org/10.1038/s41467-021-21705-3",
"journal": "Nature Communications",
"year": 2021,
"authors": "Zhi, J.; Zhou, M.; Zhang, Z.; Reiser, O.; Huang, F.",
"abstract": "A Correction to this paper has been published: https://doi.org/10.1038/s41467-021-21705-3",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Sources of uncertainty in long-term global scenarios of solar photovoltaic technology",
"doi": "10.1038/s41558-021-00998-8",
"url": "https://doi.org/10.1038/s41558-021-00998-8",
"journal": "Nature Climate Change",
"year": 2021,
"authors": "Jaxa-Rozen, M.; Trutnevyte, E.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Drivers of photovoltaic uncertainty",
"doi": "10.1038/s41558-021-01002-z",
"url": "https://doi.org/10.1038/s41558-021-01002-z",
"journal": "Nature Climate Change",
"year": 2021,
"authors": "Eker, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Uncertain storage prospects create a conundrum for carbon capture and storage ambitions",
"doi": "10.1038/s41558-021-01175-7",
"url": "https://doi.org/10.1038/s41558-021-01175-7",
"journal": "Nature Climate Change",
"year": 2021,
"authors": "Lane, J.; Greig, C.; Garnett, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "A proposed global layout of carbon capture and storage in line with a 2 °C climate target",
"doi": "10.1038/s41558-020-00960-0",
"url": "https://doi.org/10.1038/s41558-020-00960-0",
"journal": "Nature Climate Change",
"year": 2021,
"authors": "Wei, Y.; Kang, J.; Liu, L.; Li, Q.; Wang, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Application of large-scale grid-connected solar photovoltaic system for voltage stability improvement of weak national grids",
"doi": "10.1038/s41598-021-04300-w",
"url": "https://doi.org/10.1038/s41598-021-04300-w",
"journal": "Scientific Reports",
"year": 2021,
"authors": "Adetokun, B.; Ojo, J.; Muriithi, C.",
"abstract": "AbstractThis paper investigates the application of large-scale solar photovoltaic (SPV) system for voltage stability improvement of weak national grids. Large-scale SPV integration has been investigated on the Nigerian power system to enhance voltage stability and as a viable alternative to the aged shunt reactors currently being used in the Nigerian national grid to mitigate overvoltage issues in Northern Nigeria. Two scenarios of increasing SPV penetration level (PL) are investigated in this w",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Influence of wind energy utilization potential in urban suburbs: a case study of Hohhot",
"doi": "10.1038/s41598-021-90499-7",
"url": "https://doi.org/10.1038/s41598-021-90499-7",
"journal": "Scientific Reports",
"year": 2021,
"authors": "Wenxin, W.; Kexin, C.; Yang, B.; Yun, X.; Jianwen, W.",
"abstract": "AbstractGiven the increasing trend of using wind energy in cities, the utilization of distributed wind energy in cities has been widely concerned by researchers. The related research on the micro-site selection of wind turbines, a sub-project of the Task27 project of the International energy agency, was continued in this paper. The wind speed data of an observation station near Hohhot, Inner Mongolia, with a range of 10–19 m were collected. The evaluation included wind direction, Weibull paramet",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Accelerating deployment of offshore wind energy alter wind climate and reduce future power generation potentials",
"doi": "10.1038/s41598-021-91283-3",
"url": "https://doi.org/10.1038/s41598-021-91283-3",
"journal": "Scientific Reports",
"year": 2021,
"authors": "Akhtar, N.; Geyer, B.; Rockel, B.; Sommer, P.; Schrum, C.",
"abstract": "AbstractThe European Union has set ambitious CO2 reduction targets, stimulating renewable energy production and accelerating deployment of offshore wind energy in northern European waters, mainly the North Sea. With increasing size and clustering, offshore wind farms (OWFs) wake effects, which alter wind conditions and decrease the power generation efficiency of wind farms downwind become more important. We use a high-resolution regional climate model with implemented wind farm parameterizations",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Author Correction: Accelerating deployment of offshore wind energy alter wind climate and reduce future power generation potentials",
"doi": "10.1038/s41598-021-97055-3",
"url": "https://doi.org/10.1038/s41598-021-97055-3",
"journal": "Scientific Reports",
"year": 2021,
"authors": "Akhtar, N.; Geyer, B.; Rockel, B.; Sommer, P.; Schrum, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "A robust multiple-objective decision-making paradigm based on the water–energy–food security nexus under changing climate uncertainties",
"doi": "10.1038/s41598-021-99637-7",
"url": "https://doi.org/10.1038/s41598-021-99637-7",
"journal": "Scientific Reports",
"year": 2021,
"authors": "Enayati, M.; Bozorg-Haddad, O.; Fallah-Mehdipour, E.; Zolghadr-Asli, B.; Chu, X.",
"abstract": "AbstractFrom the perspective of the water–energy–food (WEF) security nexus, sustainable water-related infrastructure may hinge on multi-dimensional decision-making, which is subject to some level of uncertainties imposed by internal or external sources such as climate change. It is important to note that the impact of this phenomenon is not solely limited to the changing behavior patterns of hydro-climatic variables since it can also affect the other pillars of the WEF nexus both directly and in",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Wind energy potential assessment based on wind speed, its direction and power data",
"doi": "10.1038/s41598-021-96376-7",
"url": "https://doi.org/10.1038/s41598-021-96376-7",
"journal": "Scientific Reports",
"year": 2021,
"authors": "Wang, Z.; Liu, W.",
"abstract": "Abstract\n \n Based on wind speed, direction and power data, an assessment method of wind energy potential using finite mixture statistical distributions is proposed. Considering the correlation existing and the effect between wind speed and direction, the angular-linear modeling approach is adopted to construct the joint probability density function of wind speed and direction. For modeling the distribution of wind power density and estimating model parameters ",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Controlled synthesis of various Fe2O3 morphologies as energy storage materials",
"doi": "10.1038/s41598-021-84755-z",
"url": "https://doi.org/10.1038/s41598-021-84755-z",
"journal": "Scientific Reports",
"year": 2021,
"authors": "Hang, B.; Anh, T.",
"abstract": "AbstractAir pollution from vehicle emissions is a major problem in developing countries. Consequently, the use of iron-based rechargeable batteries, which is an effective method of reducing air pollution, have been extensively studied for electric vehicles. The structures and morphologies of iron particles significantly affect the cycle performance of iron-based rechargeable batteries. The synthesis parameters for these iron materials also remarkably influence their structures, shapes, sizes, an",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Geomechanical simulation of energy storage in salt formations",
"doi": "10.1038/s41598-021-99161-8",
"url": "https://doi.org/10.1038/s41598-021-99161-8",
"journal": "Scientific Reports",
"year": 2021,
"authors": "Ramesh Kumar, K.; Makhmutov, A.; Spiers, C.; Hajibeygi, H.",
"abstract": "AbstractA promising option for storing large-scale quantities of green gases (e.g., hydrogen) is in subsurface rock salt caverns. The mechanical performance of salt caverns utilized for long-term subsurface energy storage plays a significant role in long-term stability and serviceability. However, rock salt undergoes non-linear creep deformation due to long-term loading caused by subsurface storage. Salt caverns have complex geometries and the geological domain surrounding salt caverns has a vas",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Techno-economic analysis of long-duration energy storage and flexible power generation technologies to support high-variable renewable energy grids",
"doi": "10.1016/j.joule.2021.06.018",
"url": "https://doi.org/10.1016/j.joule.2021.06.018",
"journal": "Joule",
"year": 2021,
"authors": "Hunter, C.; Penev, M.; Reznicek, E.; Eichman, J.; Rustagi, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Adiabatic compressed air energy storage technology",
"doi": "10.1016/j.joule.2021.07.009",
"url": "https://doi.org/10.1016/j.joule.2021.07.009",
"journal": "Joule",
"year": 2021,
"authors": "Barbour, E.; Pottie, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Monitoring of Photovoltaic System Performance Using Outdoor Suns-VOC",
"doi": "10.1016/j.joule.2020.11.007",
"url": "https://doi.org/10.1016/j.joule.2020.11.007",
"journal": "Joule",
"year": 2021,
"authors": "Killam, A.; Karas, J.; Augusto, A.; Bowden, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Accurate photovoltaic measurement of organic cells for indoor applications",
"doi": "10.1016/j.joule.2021.03.029",
"url": "https://doi.org/10.1016/j.joule.2021.03.029",
"journal": "Joule",
"year": 2021,
"authors": "Cui, Y.; Hong, L.; Zhang, T.; Meng, H.; Yan, H.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A large-sized cell for solar-driven CO2 conversion with a solar-to-formate conversion efficiency of 7.2%",
"doi": "10.1016/j.joule.2021.01.002",
"url": "https://doi.org/10.1016/j.joule.2021.01.002",
"journal": "Joule",
"year": 2021,
"authors": "Kato, N.; Mizuno, S.; Shiozawa, M.; Nojiri, N.; Kawai, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Tandem solar cells beyond perovskite-silicon",
"doi": "10.1016/j.joule.2021.08.009",
"url": "https://doi.org/10.1016/j.joule.2021.08.009",
"journal": "Joule",
"year": 2021,
"authors": "Weiss, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Rwanda’s Off-Grid Solar Performance Targets",
"doi": "10.1016/j.joule.2020.12.016",
"url": "https://doi.org/10.1016/j.joule.2020.12.016",
"journal": "Joule",
"year": 2021,
"authors": "Asemota, G.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Comparing CO2 emissions impacts of electricity storage across applications and energy systems",
"doi": "10.1016/j.joule.2021.04.010",
"url": "https://doi.org/10.1016/j.joule.2021.04.010",
"journal": "Joule",
"year": 2021,
"authors": "Beuse, M.; Steffen, B.; Dirksmeier, M.; Schmidt, T.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Predicting battery end of life from solar off-grid system field data using machine learning",
"doi": "10.1016/j.joule.2021.11.006",
"url": "https://doi.org/10.1016/j.joule.2021.11.006",
"journal": "Joule",
"year": 2021,
"authors": "Aitio, A.; Howey, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar and wind grid system value in the United States: The effect of transmission congestion, generation profiles, and curtailment",
"doi": "10.1016/j.joule.2021.05.009",
"url": "https://doi.org/10.1016/j.joule.2021.05.009",
"journal": "Joule",
"year": 2021,
"authors": "Millstein, D.; Wiser, R.; Mills, A.; Bolinger, M.; Seel, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "The feasibility of heavy battery electric trucks",
"doi": "10.1016/j.joule.2021.03.007",
"url": "https://doi.org/10.1016/j.joule.2021.03.007",
"journal": "Joule",
"year": 2021,
"authors": "Nykvist, B.; Olsson, O.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Proton conductors for heavy-duty vehicle fuel cells",
"doi": "10.1016/j.joule.2021.05.016",
"url": "https://doi.org/10.1016/j.joule.2021.05.016",
"journal": "Joule",
"year": 2021,
"authors": "Gittleman, C.; Jia, H.; De Castro, E.; Chisholm, C.; Kim, Y.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Wind power production from very large offshore wind farms",
"doi": "10.1016/j.joule.2021.09.002",
"url": "https://doi.org/10.1016/j.joule.2021.09.002",
"journal": "Joule",
"year": 2021,
"authors": "Pryor, S.; Barthelmie, R.; Shepherd, T.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Evaluating and improving technologies for energy storage and backup power",
"doi": "10.1016/j.joule.2021.07.015",
"url": "https://doi.org/10.1016/j.joule.2021.07.015",
"journal": "Joule",
"year": 2021,
"authors": "Ziegler, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Long-duration energy storage: A blueprint for research and innovation",
"doi": "10.1016/j.joule.2021.08.002",
"url": "https://doi.org/10.1016/j.joule.2021.08.002",
"journal": "Joule",
"year": 2021,
"authors": "Jenkins, J.; Sepulveda, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Utility-Scale Portable Energy Storage Systems",
"doi": "10.1016/j.joule.2020.12.005",
"url": "https://doi.org/10.1016/j.joule.2020.12.005",
"journal": "Joule",
"year": 2021,
"authors": "He, G.; Michalek, J.; Kar, S.; Chen, Q.; Zhang, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Global Atlas of Closed-Loop Pumped Hydro Energy Storage",
"doi": "10.1016/j.joule.2020.11.015",
"url": "https://doi.org/10.1016/j.joule.2020.11.015",
"journal": "Joule",
"year": 2021,
"authors": "Stocks, M.; Stocks, R.; Lu, B.; Cheng, C.; Blakers, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Is there a role for carbon capture and storage in a just transition?",
"doi": "10.1016/j.oneear.2021.10.022",
"url": "https://doi.org/10.1016/j.oneear.2021.10.022",
"journal": "One Earth",
"year": 2021,
"authors": "Morrow, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Carbon capture and storage at the end of a lost decade",
"doi": "10.1016/j.oneear.2021.10.002",
"url": "https://doi.org/10.1016/j.oneear.2021.10.002",
"journal": "One Earth",
"year": 2021,
"authors": "Martin-Roberts, E.; Scott, V.; Flude, S.; Johnson, G.; Haszeldine, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Cost reductions in renewables can substantially erode the value of carbon capture and storage in mitigation pathways",
"doi": "10.1016/j.oneear.2021.10.024",
"url": "https://doi.org/10.1016/j.oneear.2021.10.024",
"journal": "One Earth",
"year": 2021,
"authors": "Grant, N.; Hawkes, A.; Napp, T.; Gambhir, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Global agricultural trade and land system sustainability: Implications for ecosystem carbon storage, biodiversity, and human nutrition",
"doi": "10.1016/j.oneear.2021.09.006",
"url": "https://doi.org/10.1016/j.oneear.2021.09.006",
"journal": "One Earth",
"year": 2021,
"authors": "Kastner, T.; Chaudhary, A.; Gingrich, S.; Marques, A.; Persson, U.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Why is adiabatic compressed air energy storage yet to become a viable energy storage option?",
"doi": "10.1016/j.isci.2021.102440",
"url": "https://doi.org/10.1016/j.isci.2021.102440",
"journal": "iScience",
"year": 2021,
"authors": "Barbour, E.; Pottie, D.; Eames, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "All-polymer indoor photovoltaic modules",
"doi": "10.1016/j.isci.2021.103104",
"url": "https://doi.org/10.1016/j.isci.2021.103104",
"journal": "iScience",
"year": 2021,
"authors": "Zhang, Y.; Wang, N.; Wang, Y.; Zhang, J.; Liu, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Monitoring photovoltaic soiling: assessment, challenges, and perspectives of current and potential strategies",
"doi": "10.1016/j.isci.2021.102165",
"url": "https://doi.org/10.1016/j.isci.2021.102165",
"journal": "iScience",
"year": 2021,
"authors": "Bessa, J.; Micheli, L.; Almonacid, F.; Fernández, E.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Comprehensive early warning strategies based on consistency deviation of thermal–electrical characteristics for energy storage grid",
"doi": "10.1016/j.isci.2021.103058",
"url": "https://doi.org/10.1016/j.isci.2021.103058",
"journal": "iScience",
"year": 2021,
"authors": "Wu, X.; Cui, Z.; Zhou, G.; Wen, T.; Hu, F.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Financial viability of electric vehicle lithium-ion battery recycling",
"doi": "10.1016/j.isci.2021.102787",
"url": "https://doi.org/10.1016/j.isci.2021.102787",
"journal": "iScience",
"year": 2021,
"authors": "Lander, L.; Cleaver, T.; Rajaeifar, M.; Nguyen-Tien, V.; Elliott, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Drive circuitry of an electric vehicle enabling rapid heating of the battery pack at low temperatures",
"doi": "10.1016/j.isci.2020.101921",
"url": "https://doi.org/10.1016/j.isci.2020.101921",
"journal": "iScience",
"year": 2021,
"authors": "Li, Y.; Gao, X.; Qin, Y.; Du, J.; Guo, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "A high-performance triboelectric-electromagnetic hybrid wind energy harvester based on rotational tapered rollers aiming at outdoor IoT applications",
"doi": "10.1016/j.isci.2021.102300",
"url": "https://doi.org/10.1016/j.isci.2021.102300",
"journal": "iScience",
"year": 2021,
"authors": "Fang, Y.; Tang, T.; Li, Y.; Hou, C.; Wen, F.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Wind-assisted sprint migration in northern swifts",
"doi": "10.1016/j.isci.2021.102474",
"url": "https://doi.org/10.1016/j.isci.2021.102474",
"journal": "iScience",
"year": 2021,
"authors": "Åkesson, S.; Bianco, G.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Machine learning toward advanced energy storage devices and systems",
"doi": "10.1016/j.isci.2020.101936",
"url": "https://doi.org/10.1016/j.isci.2020.101936",
"journal": "iScience",
"year": 2021,
"authors": "Gao, T.; Lu, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Electrical energy storage using compressed gas in depleted hydraulically fractured wells",
"doi": "10.1016/j.isci.2021.103459",
"url": "https://doi.org/10.1016/j.isci.2021.103459",
"journal": "iScience",
"year": 2021,
"authors": "Young, D.; Johnston, H.; Augustine, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Thermal rectification in multilayer phase change material structures for energy storage applications",
"doi": "10.1016/j.isci.2021.102843",
"url": "https://doi.org/10.1016/j.isci.2021.102843",
"journal": "iScience",
"year": 2021,
"authors": "Swoboda, T.; Klinar, K.; Abbasi, S.; Brem, G.; Kitanovski, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Building Energy Materials",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "China's vehicle electrification impacts on sales, fuel use, and battery material demand through 2050: Optimizing consumer and industry decisions",
"doi": "10.1016/j.isci.2021.103375",
"url": "https://doi.org/10.1016/j.isci.2021.103375",
"journal": "iScience",
"year": 2021,
"authors": "Ou, S.; Hsieh, I.; He, X.; Lin, Z.; Yu, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Strongly enhanced and tunable photovoltaic effect in ferroelectric-paraelectric superlattices",
"doi": "10.1126/sciadv.abe4206",
"url": "https://doi.org/10.1126/sciadv.abe4206",
"journal": "Science Advances",
"year": 2021,
"authors": "Yun, Y.; Mühlenbein, L.; Knoche, D.; Lotnyk, A.; Bhatnagar, A.",
"abstract": "Sandwiching a ferroelectric between two paraelectrics squeezes out larger photovoltaic current.",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Revealing generation, migration, and dissociation of electron-hole pairs and current emergence in an organic photovoltaic cell",
"doi": "10.1126/sciadv.abf7672",
"url": "https://doi.org/10.1126/sciadv.abf7672",
"journal": "Science Advances",
"year": 2021,
"authors": "Xu, Z.; Zhou, Y.; Yam, C.; Groß, L.; De Sio, A.",
"abstract": "Photoexcitation, electron-hole pair migration, charge separation, and current generation are simulated quantum mechanically.",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Spin photovoltaic effect in magnetic van der Waals heterostructures",
"doi": "10.1126/sciadv.abg8094",
"url": "https://doi.org/10.1126/sciadv.abg8094",
"journal": "Science Advances",
"year": 2021,
"authors": "Song, T.; Anderson, E.; Tu, M.; Seyler, K.; Taniguchi, T.",
"abstract": "\n Spin-photovoltaic effect in 2D magnet CrI\n 3\n exhibits interplay between magneto-excitons, photon energy, and light helicity.\n ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "History of the solar nebula from meteorite paleomagnetism",
"doi": "10.1126/sciadv.aba5967",
"url": "https://doi.org/10.1126/sciadv.aba5967",
"journal": "Science Advances",
"year": 2021,
"authors": "Weiss, B.; Bai, X.; Fu, R.",
"abstract": "Meteorite measurements suggest that magnetism played a central role in mass transport in the early solar system.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "The source of the major solar energetic particle events from super active region 11944",
"doi": "10.1126/sciadv.abf0068",
"url": "https://doi.org/10.1126/sciadv.abf0068",
"journal": "Science Advances",
"year": 2021,
"authors": "Brooks, D.; Yardley, S.",
"abstract": "Elemental abundance measurements by the Hinode and Wind spacecrafts reveal the source of major solar energetic particle events.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Iodine reduction for reproducible and high-performance perovskite solar cells and modules",
"doi": "10.1126/sciadv.abe8130",
"url": "https://doi.org/10.1126/sciadv.abe8130",
"journal": "Science Advances",
"year": 2021,
"authors": "Chen, S.; Xiao, X.; Gu, H.; Huang, J.",
"abstract": "An additive can remove detrimental iodine in degraded precursors, which enhances the performance and yield of perovskite devices.",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar-assisted fabrication of large-scale, patternable transparent wood",
"doi": "10.1126/sciadv.abd7342",
"url": "https://doi.org/10.1126/sciadv.abd7342",
"journal": "Science Advances",
"year": 2021,
"authors": "Xia, Q.; Chen, C.; Li, T.; He, S.; Gao, J.",
"abstract": "Patternable transparent wood with a high transmittance is fabricated via a solar-assisted chemical brushing approach.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Calcification-driven CO\n 2\n emissions exceed “Blue Carbon” sequestration in a carbonate seagrass meadow",
"doi": "10.1126/sciadv.abj1372",
"url": "https://doi.org/10.1126/sciadv.abj1372",
"journal": "Science Advances",
"year": 2021,
"authors": "Van Dam, B.; Zeller, M.; Lopes, C.; Smyth, A.; Böttcher, M.",
"abstract": "\n Rigorous carbon accounting shows that calcification-driven CO\n 2\n emissions can exceed seagrass “Blue Carbon” storage.\n ",
"data_url": "",
"source": "CrossRef",
"direction": "EnergiTrade",
"subcategory": "Carbon Asset Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Controlling electrochemical growth of metallic zinc electrodes: Toward affordable rechargeable energy storage systems",
"doi": "10.1126/sciadv.abe0219",
"url": "https://doi.org/10.1126/sciadv.abe0219",
"journal": "Science Advances",
"year": 2021,
"authors": "Zheng, J.; Archer, L.",
"abstract": "Zinc anodes are a powerful platform for understanding metal deposition and for low-cost electrical energy storage.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Dynamic thermal trapping enables cross-species smart nanoparticle swarms",
"doi": "10.1126/sciadv.abe3184",
"url": "https://doi.org/10.1126/sciadv.abe3184",
"journal": "Science Advances",
"year": 2021,
"authors": "Li, T.; Chan, K.; Ding, T.; Wang, X.; Cheng, Y.",
"abstract": "Smart nanoparticle swarm allows dynamic multimaterials integration to access distinctive functions.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solution-shearing of dielectric polymer with high thermal conductivity and electric insulation",
"doi": "10.1126/sciadv.abi7410",
"url": "https://doi.org/10.1126/sciadv.abi7410",
"journal": "Science Advances",
"year": 2021,
"authors": "Li, Z.; An, L.; Khuje, S.; Tan, J.; Hu, Y.",
"abstract": "We obtain a promising thermal conductive electric insulation material by gel shearing of polyethylene.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Scale of oceanic eddy killing by wind from global satellite observations",
"doi": "10.1126/sciadv.abf4920",
"url": "https://doi.org/10.1126/sciadv.abf4920",
"journal": "Science Advances",
"year": 2021,
"authors": "Rai, S.; Hecht, M.; Maltrud, M.; Aluie, H.",
"abstract": "While wind is the primary driver of the oceanic general circulation, it kills the ocean’s most energetic motions.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Ignitions explain more than temperature or precipitation in driving Santa Ana wind fires",
"doi": "10.1126/sciadv.abh2262",
"url": "https://doi.org/10.1126/sciadv.abh2262",
"journal": "Science Advances",
"year": 2021,
"authors": "Keeley, J.; Guzman-Morales, J.; Gershunov, A.; Syphard, A.; Cayan, D.",
"abstract": "Temperature and precipitation play less of a role in predicting area burned compared to wind speed and number of ignitions.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Electrochemical DNA synthesis and sequencing on a single electrode with scalability for integrated data storage",
"doi": "10.1126/sciadv.abk0100",
"url": "https://doi.org/10.1126/sciadv.abk0100",
"journal": "Science Advances",
"year": 2021,
"authors": "Xu, C.; Ma, B.; Gao, Z.; Dong, X.; Zhao, C.",
"abstract": "DNA synthesis and sequencing on a single electrode enables integrated data storage using a sliding microarray chip.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "A harmonised, high-coverage, open dataset of solar photovoltaic installations in the UK",
"doi": "10.1038/s41597-020-00739-0",
"url": "https://doi.org/10.1038/s41597-020-00739-0",
"journal": "Scientific Data",
"year": 2020,
"authors": "Stowell, D.; Kelly, J.; Tanner, D.; Taylor, J.; Jones, E.",
"abstract": "AbstractSolar photovoltaic (PV) is an increasingly significant fraction of electricity generation. Efficient management, and innovations such as short-term forecasting and machine vision, demand high-resolution geographic datasets of PV installations. However, official and public sources have notable deficiencies: spatial imprecision, gaps in coverage and lack of crucial meta data, especially for small-scale solar panel installations. We present the results of a major crowd-sourcing campaign to ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Estimation of global tropical cyclone wind speed probabilities using the STORM dataset",
"doi": "10.1038/s41597-020-00720-x",
"url": "https://doi.org/10.1038/s41597-020-00720-x",
"journal": "Scientific Data",
"year": 2020,
"authors": "Bloemendaal, N.; de Moel, H.; Muis, S.; Haigh, I.; Aerts, J.",
"abstract": "AbstractTropical cyclones (TC) are one of the deadliest and costliest natural disasters. To mitigate the impact of such disasters, it is essential to know extreme exceedance probabilities, also known as return periods, of TC hazards. In this paper, we demonstrate the use of the STORM dataset, containing synthetic TCs equivalent of 10,000 years under present-day climate conditions, for the calculation of TC wind speed return periods. The temporal length of the STORM dataset allows us to empirical",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Getting high with quantum dot solar cells",
"doi": "10.1038/s41560-019-0534-8",
"url": "https://doi.org/10.1038/s41560-019-0534-8",
"journal": "Nature Energy",
"year": 2020,
"authors": "Jean, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Ultrahigh power and energy density in partially ordered lithium-ion cathode materials",
"doi": "10.1038/s41560-020-0573-1",
"url": "https://doi.org/10.1038/s41560-020-0573-1",
"journal": "Nature Energy",
"year": 2020,
"authors": "Ji, H.; Wu, J.; Cai, Z.; Liu, J.; Kwon, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Multifaceted drivers for onshore wind energy repowering and their implications for energy transition",
"doi": "10.1038/s41560-020-00717-1",
"url": "https://doi.org/10.1038/s41560-020-00717-1",
"journal": "Nature Energy",
"year": 2020,
"authors": "Kitzing, L.; Jensen, M.; Telsnig, T.; Lantz, E.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Multifaceted political and social drivers inform wind energy repowering decisions and potential",
"doi": "10.1038/s41560-020-00733-1",
"url": "https://doi.org/10.1038/s41560-020-00733-1",
"journal": "Nature Energy",
"year": 2020,
"authors": "Kitzing, L.; Jensen, M.; Telsnig, T.; Lantz, E.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Offshore wind competitiveness in mature markets without subsidy",
"doi": "10.1038/s41560-020-0661-2",
"url": "https://doi.org/10.1038/s41560-020-0661-2",
"journal": "Nature Energy",
"year": 2020,
"authors": "Jansen, M.; Staffell, I.; Kitzing, L.; Quoilin, S.; Wiggelinkhuizen, E.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Effects of technology complexity on the emergence and evolution of wind industry manufacturing locations along global value chains",
"doi": "10.1038/s41560-020-00685-6",
"url": "https://doi.org/10.1038/s41560-020-00685-6",
"journal": "Nature Energy",
"year": 2020,
"authors": "Surana, K.; Doblinger, C.; Anadon, L.; Hultman, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Tuning the interlayer spacing of graphene laminate films for efficient pore utilization towards compact capacitive energy storage",
"doi": "10.1038/s41560-020-0560-6",
"url": "https://doi.org/10.1038/s41560-020-0560-6",
"journal": "Nature Energy",
"year": 2020,
"authors": "Li, Z.; Gadipelli, S.; Li, H.; Howard, C.; Brett, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Author Correction: Tuning the interlayer spacing of graphene laminate films for efficient pore utilization towards compact capacitive energy storage",
"doi": "10.1038/s41560-020-0588-7",
"url": "https://doi.org/10.1038/s41560-020-0588-7",
"journal": "Nature Energy",
"year": 2020,
"authors": "Li, Z.; Gadipelli, S.; Li, H.; Howard, C.; Brett, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Reduced ecosystem services of desert plants from ground-mounted solar energy development",
"doi": "10.1038/s41893-020-0574-x",
"url": "https://doi.org/10.1038/s41893-020-0574-x",
"journal": "Nature Sustainability",
"year": 2020,
"authors": "Grodsky, S.; Hernandez, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Climate change extremes and photovoltaic power output",
"doi": "10.1038/s41893-020-00643-w",
"url": "https://doi.org/10.1038/s41893-020-00643-w",
"journal": "Nature Sustainability",
"year": 2020,
"authors": "Feron, S.; Cordero, R.; Damiani, A.; Jackson, R.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Photovoltaic panel cooling by atmospheric water sorption–evaporation cycle",
"doi": "10.1038/s41893-020-0535-4",
"url": "https://doi.org/10.1038/s41893-020-0535-4",
"journal": "Nature Sustainability",
"year": 2020,
"authors": "Li, R.; Shi, Y.; Wu, M.; Hong, S.; Wang, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Green solvent for perovskite solar cell production",
"doi": "10.1038/s41893-020-00647-6",
"url": "https://doi.org/10.1038/s41893-020-00647-6",
"journal": "Nature Sustainability",
"year": 2020,
"authors": "Park, N.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar-driven reforming of solid waste for a sustainable future",
"doi": "10.1038/s41893-020-00650-x",
"url": "https://doi.org/10.1038/s41893-020-00650-x",
"journal": "Nature Sustainability",
"year": 2020,
"authors": "Uekert, T.; Pichler, C.; Schubert, T.; Reisner, E.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Global reduction of solar power generation efficiency due to aerosols and panel soiling",
"doi": "10.1038/s41893-020-0553-2",
"url": "https://doi.org/10.1038/s41893-020-0553-2",
"journal": "Nature Sustainability",
"year": 2020,
"authors": "Li, X.; Mauzerall, D.; Bergin, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Hydrological limits to carbon capture and storage",
"doi": "10.1038/s41893-020-0532-7",
"url": "https://doi.org/10.1038/s41893-020-0532-7",
"journal": "Nature Sustainability",
"year": 2020,
"authors": "Rosa, L.; Reimer, J.; Went, M.; D’Odorico, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Ecological restoration impact on total terrestrial water storage",
"doi": "10.1038/s41893-020-00600-7",
"url": "https://doi.org/10.1038/s41893-020-00600-7",
"journal": "Nature Sustainability",
"year": 2020,
"authors": "Zhao, M.; A, G.; Zhang, J.; Velicogna, I.; Liang, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Impacts of solar intermittency on future photovoltaic reliability",
"doi": "10.1038/s41467-020-18602-6",
"url": "https://doi.org/10.1038/s41467-020-18602-6",
"journal": "Nature Communications",
"year": 2020,
"authors": "Yin, J.; Molini, A.; Porporato, A.",
"abstract": "AbstractAs photovoltaic power is expanding rapidly worldwide, it is imperative to assess its promise under future climate scenarios. While a great deal of research has been devoted to trends in mean solar radiation, less attention has been paid to its intermittent character, a key challenge when compounded with uncertainties related to climate variability. Using both satellite data and climate model outputs, we characterize solar radiation intermittency to assess future photovoltaic reliability.",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar photovoltaic interventions have reduced rural poverty in China",
"doi": "10.1038/s41467-020-15826-4",
"url": "https://doi.org/10.1038/s41467-020-15826-4",
"journal": "Nature Communications",
"year": 2020,
"authors": "Zhang, H.; Wu, K.; Qiu, Y.; Chan, G.; Wang, S.",
"abstract": "AbstractSince 2013, China has implemented a large-scale initiative to systematically deploy solar photovoltaic (PV) projects to alleviate poverty in rural areas. To provide new understanding of China’s targeted poverty alleviation strategy, we use a panel dataset of 211 pilot counties that received targeted PV investments from 2013 to 2016, and find that the PV poverty alleviation pilot policy increases per-capita disposable income in a county by approximately 7%-8%. The effect of PV investment ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Unraveling the influence of non-fullerene acceptor molecular packing on photovoltaic performance of organic solar cells",
"doi": "10.1038/s41467-020-19853-z",
"url": "https://doi.org/10.1038/s41467-020-19853-z",
"journal": "Nature Communications",
"year": 2020,
"authors": "Ye, L.; Weng, K.; Xu, J.; Du, X.; Chandrabose, S.",
"abstract": "AbstractIn non-fullerene organic solar cells, the long-range structure ordering induced by end-group π–π stacking of fused-ring non-fullerene acceptors is considered as the critical factor in realizing efficient charge transport and high power conversion efficiency. Here, we demonstrate that side-chain engineering of non-fullerene acceptors could drive the fused-ring backbone assembly from a π–π stacking mode to an intermixed packing mode, and to a non-stacking mode to refine its solid-state pro",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar system exploration via comparative planetology",
"doi": "10.1038/s41467-020-18126-z",
"url": "https://doi.org/10.1038/s41467-020-18126-z",
"journal": "Nature Communications",
"year": 2020,
"authors": "Glassmeier, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Regional impacts of electricity system transition in Central Europe until 2035",
"doi": "10.1038/s41467-020-18812-y",
"url": "https://doi.org/10.1038/s41467-020-18812-y",
"journal": "Nature Communications",
"year": 2020,
"authors": "Sasse, J.; Trutnevyte, E.",
"abstract": "AbstractAchieving current electricity sector targets in Central Europe (Austria, Denmark, France, Germany, Poland and Switzerland) will redistribute regional benefits and burdens at sub-national level. Limiting emerging regional inequalities would foster the implementation success. We model one hundred scenarios of electricity generation, storage and transmission for 2035 in these countries for 650 regions and quantify associated regional impacts on system costs, employment, greenhouse gas and p",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Carbon Trading & New Business Models",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Drought and climate change impacts on cooling water shortages and electricity prices in Great Britain",
"doi": "10.1038/s41467-020-16012-2",
"url": "https://doi.org/10.1038/s41467-020-16012-2",
"journal": "Nature Communications",
"year": 2020,
"authors": "Byers, E.; Coxon, G.; Freer, J.; Hall, J.",
"abstract": "AbstractThe risks of cooling water shortages to thermo-electric power plants are increasingly studied as an important climate risk to the energy sector. Whilst electricity transmission networks reduce the risks during disruptions, more costly plants must provide alternative supplies. Here, we investigate the electricity price impacts of cooling water shortages on Britain’s power supplies using a probabilistic spatial risk model of regional climate, hydrological droughts and cooling water shortag",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "India’s potential for integrating solar and on- and offshore wind power into its energy system",
"doi": "10.1038/s41467-020-18318-7",
"url": "https://doi.org/10.1038/s41467-020-18318-7",
"journal": "Nature Communications",
"year": 2020,
"authors": "Lu, T.; Sherman, P.; Chen, X.; Chen, S.; Lu, X.",
"abstract": "AbstractThis paper considers options for a future Indian power economy in which renewables, wind and solar, could meet 80% of anticipated 2040 power demand supplanting the country’s current reliance on coal. Using a cost optimization model, here we show that renewables could provide a source of power cheaper or at least competitive with what could be supplied using fossil-based alternatives. The ancillary advantage would be a significant reduction in India’s future power sector related emissions",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "A wind-albedo-wind feedback driven by landscape evolution",
"doi": "10.1038/s41467-019-13661-w",
"url": "https://doi.org/10.1038/s41467-019-13661-w",
"journal": "Nature Communications",
"year": 2020,
"authors": "Abell, J.; Pullen, A.; Lebo, Z.; Kapp, P.; Gloege, L.",
"abstract": "AbstractThe accurate characterization of near-surface winds is critical to our understanding of past and modern climate. Dust lofted by these winds has the potential to modify surface and atmospheric conditions as well as ocean biogeochemistry. Stony deserts, low dust emitting regions today, represent expansive areas where variations in surficial geology through time may drastically impact near-surface conditions. Here we use the Weather Research and Forecasting (WRF) model over the western Gobi",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Global resource potential of seasonal pumped hydropower storage for energy and water storage",
"doi": "10.1038/s41467-020-14555-y",
"url": "https://doi.org/10.1038/s41467-020-14555-y",
"journal": "Nature Communications",
"year": 2020,
"authors": "Hunt, J.; Byers, E.; Wada, Y.; Parkinson, S.; Gernaat, D.",
"abstract": "AbstractSeasonal mismatches between electricity supply and demand is increasing due to expanded use of wind, solar and hydropower resources, which in turn raises the interest on low-cost seasonal energy storage options. Seasonal pumped hydropower storage (SPHS) can provide long-term energy storage at a relatively low-cost and co-benefits in the form of freshwater storage capacity. We present the first estimate of the global assessment of SPHS potential, using a novel plant-siting methodology bas",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "High density mechanical energy storage with carbon nanothread bundle",
"doi": "10.1038/s41467-020-15807-7",
"url": "https://doi.org/10.1038/s41467-020-15807-7",
"journal": "Nature Communications",
"year": 2020,
"authors": "Zhan, H.; Zhang, G.; Bell, J.; Tan, V.; Gu, Y.",
"abstract": "AbstractThe excellent mechanical properties of carbon nanofibers bring promise for energy-related applications. Through in silico studies and continuum elasticity theory, here we show that the ultra-thin carbon nanothreads-based bundles exhibit a high mechanical energy storage density. Specifically, the gravimetric energy density is found to decrease with the number of filaments, with torsion and tension as the two dominant contributors. Due to the coupled stresses, the nanothread bundle experie",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Improved estimates on global carbon stock and carbon pools in tidal wetlands",
"doi": "10.1038/s41467-019-14120-2",
"url": "https://doi.org/10.1038/s41467-019-14120-2",
"journal": "Nature Communications",
"year": 2020,
"authors": "Ouyang, X.; Lee, S.",
"abstract": "AbstractTidal wetlands are global hotspots of carbon storage but errors exist with current estimates on their carbon density due to the use of factors estimated from other habitats for converting loss-on-ignition (LOI) to organic carbon (OC); and the omission of certain significant carbon pools. Here we show that the widely used conversion factor (LOI/OC = 1.724) is significantly lower than our measurements for saltmarsh sediments (1.92 ± 0.01) and oversimplifies the polynomial relationship betw",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Global wind patterns and the vulnerability of wind-dispersed species to climate change",
"doi": "10.1038/s41558-020-0848-3",
"url": "https://doi.org/10.1038/s41558-020-0848-3",
"journal": "Nature Climate Change",
"year": 2020,
"authors": "Kling, M.; Ackerly, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Putting wind dispersal in context",
"doi": "10.1038/s41558-020-0858-1",
"url": "https://doi.org/10.1038/s41558-020-0858-1",
"journal": "Nature Climate Change",
"year": 2020,
"authors": "Bohrer, G.; Treep, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "The climate change mitigation potential of bioenergy with carbon capture and storage",
"doi": "10.1038/s41558-020-0885-y",
"url": "https://doi.org/10.1038/s41558-020-0885-y",
"journal": "Nature Climate Change",
"year": 2020,
"authors": "Hanssen, S.; Daioglou, V.; Steinmann, Z.; Doelman, J.; Van Vuuren, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Transparent heater with meshed amorphous oxide/metal/amorphous oxide for electric vehicle applications",
"doi": "10.1038/s41598-020-66514-8",
"url": "https://doi.org/10.1038/s41598-020-66514-8",
"journal": "Scientific Reports",
"year": 2020,
"authors": "Lee, S.; Hwang, J.",
"abstract": "AbstractFor electric vehicle application, one of the problems to be solved is defrosting or defogging a windshield or a side mirror without gas-fired heaters. In this paper, we report on a high performance of transparent heater with meshed amorphous-SiInZnO (SIZO)/ Ag/ amorphous-SiInZnO (SIZO) (SAS) for pure electric vehicles. We have adopted amorphous oxide materials like SIZO since SIZO is well known amorphous oxide materials showing high transparency and smooth surface roughness. With the mes",
"data_url": "",
"source": "CrossRef",
"direction": "FLEXERGY",
"subcategory": "Electric Vehicles & Mobility",
"direction_label": "Demand Response & New Mobilities & Urban Planning",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Cost of wind energy generation should include energy storage allowance",
"doi": "10.1038/s41598-020-59936-x",
"url": "https://doi.org/10.1038/s41598-020-59936-x",
"journal": "Scientific Reports",
"year": 2020,
"authors": "Boretti, A.; Castelletto, S.",
"abstract": "AbstractThe statistic of wind energy in the US is presently based on annual average capacity factors, and construction cost (CAPEX). This approach suffers from one major downfall, as it does not include any parameter describing the variability of the wind energy generation. As a grid wind and solar only requires significant storage in terms of both power and energy to compensate for the variability of the resource, there is a need to account also for a parameter describing the variability of the",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Thermal energy storage and thermal conductivity properties of Octadecanol-MWCNT composite PCMs as promising organic heat storage materials",
"doi": "10.1038/s41598-020-64149-3",
"url": "https://doi.org/10.1038/s41598-020-64149-3",
"journal": "Scientific Reports",
"year": 2020,
"authors": "Al-Ahmed, A.; Sarı, A.; Mazumder, M.; Hekimoğlu, G.; Al-Sulaiman, F.",
"abstract": "AbstractFatty alcohols have been identified as promising organic phase change materials (PCMs) for thermal energy storage, because of their suitable temperature range, nontoxicity and can be obtained from both natural and synthetic sources. Like all other organic PCMs, octadecanol (OD) as PCM suffers from low thermal conductivity (TC). In this work, to enhance its TC, it was grafted on the functionalized MWCNT and were used as a conductive filler to enhance overall thermal properties of OD in a ",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Building Energy Materials",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Cryogenic conditioning of microencapsulated phase change material for thermal energy storage",
"doi": "10.1038/s41598-020-75494-8",
"url": "https://doi.org/10.1038/s41598-020-75494-8",
"journal": "Scientific Reports",
"year": 2020,
"authors": "Trivedi, G.; Parameshwaran, R.",
"abstract": "AbstractMicroencapsulation is a viable technique to protect and retain the properties of phase change materials (PCMs) that are used in thermal energy storage (TES) applications. In this study, an organic ester as a phase change material was microencapsulated using melamine–formaldehyde as the shell material. This microencapsulated PCM (MPCM) was examined with cyclic cryogenic treatment and combined cyclic cryogenic heat treatment processes. The surface morphology studies showed that the shell s",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Building Energy Materials",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Designing of Carbon Nitride Supported ZnCo2O4 Hybrid Electrode for High-Performance Energy Storage Applications",
"doi": "10.1038/s41598-020-58925-4",
"url": "https://doi.org/10.1038/s41598-020-58925-4",
"journal": "Scientific Reports",
"year": 2020,
"authors": "Sharma, M.; Gaur, A.",
"abstract": "AbstractThis study reports a unique graphitic-C3N4 supported ZnCo2O4 composite, synthesized through a facile hydrothermal method to enhance the electrochemical performance of the electrode. The g-C3N4@ZnCo2O4 hybrid composite based electrode exhibits a significant increase in specific surface area and maximum specific capacity of 157 mAhg−1 at 4 Ag−1. Moreover, g-C3N4@ZnCo2O4 electrode maintained significant capacity retention of 90% up to 2500 cycles. Utilizing this composite in the development",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Electricity Storage and the Renewable Energy Transition",
"doi": "10.1016/j.joule.2020.07.022",
"url": "https://doi.org/10.1016/j.joule.2020.07.022",
"journal": "Joule",
"year": 2020,
"authors": "Schill, W.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Predicted Power Output of Silicon-Based Bifacial Tandem Photovoltaic Systems",
"doi": "10.1016/j.joule.2019.12.017",
"url": "https://doi.org/10.1016/j.joule.2019.12.017",
"journal": "Joule",
"year": 2020,
"authors": "Onno, A.; Rodkey, N.; Asgharzadeh, A.; Manzoor, S.; Yu, Z.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Solar Materials Find Their Band Gap",
"doi": "10.1016/j.joule.2020.05.001",
"url": "https://doi.org/10.1016/j.joule.2020.05.001",
"journal": "Joule",
"year": 2020,
"authors": "Sutherland, B.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Are We Still Overestimating Costs for Wind and Solar?",
"doi": "10.1016/j.joule.2020.01.009",
"url": "https://doi.org/10.1016/j.joule.2020.01.009",
"journal": "Joule",
"year": 2020,
"authors": "Kurtz, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Role of Long-Duration Energy Storage in Variable Renewable Electricity Systems",
"doi": "10.1016/j.joule.2020.07.007",
"url": "https://doi.org/10.1016/j.joule.2020.07.007",
"journal": "Joule",
"year": 2020,
"authors": "Dowling, J.; Rinaldi, K.; Ruggles, T.; Davis, S.; Yuan, M.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Long-Duration Electricity Storage Applications, Economics, and Technologies",
"doi": "10.1016/j.joule.2019.11.009",
"url": "https://doi.org/10.1016/j.joule.2019.11.009",
"journal": "Joule",
"year": 2020,
"authors": "Albertus, P.; Manser, J.; Litzelman, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Projecting the Competition between Energy-Storage Technologies in the Electricity Sector",
"doi": "10.1016/j.joule.2020.07.017",
"url": "https://doi.org/10.1016/j.joule.2020.07.017",
"journal": "Joule",
"year": 2020,
"authors": "Beuse, M.; Steffen, B.; Schmidt, T.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Synergistic Tandem Solar Electricity-Water Generators",
"doi": "10.1016/j.joule.2019.12.010",
"url": "https://doi.org/10.1016/j.joule.2019.12.010",
"journal": "Joule",
"year": 2020,
"authors": "Xu, N.; Zhu, P.; Sheng, Y.; Zhou, L.; Li, X.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Liquid Thermo-Responsive Smart Window Derived from Hydrogel",
"doi": "10.1016/j.joule.2020.09.001",
"url": "https://doi.org/10.1016/j.joule.2020.09.001",
"journal": "Joule",
"year": 2020,
"authors": "Zhou, Y.; Wang, S.; Peng, J.; Tan, Y.; Li, C.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Wind-Power Generator Technology Research Aims to Meet Global-Wind Power Ambitions",
"doi": "10.1016/j.joule.2020.08.019",
"url": "https://doi.org/10.1016/j.joule.2020.08.019",
"journal": "Joule",
"year": 2020,
"authors": "Veers, P.; Sethuraman, L.; Keller, J.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "How Does Wind Project Performance Change with Age in the United States?",
"doi": "10.1016/j.joule.2020.04.005",
"url": "https://doi.org/10.1016/j.joule.2020.04.005",
"journal": "Joule",
"year": 2020,
"authors": "Hamilton, S.; Millstein, D.; Bolinger, M.; Wiser, R.; Jeong, S.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "The Mineral Battery: Combining Metal Extraction and Energy Storage",
"doi": "10.1016/j.joule.2019.12.008",
"url": "https://doi.org/10.1016/j.joule.2019.12.008",
"journal": "Joule",
"year": 2020,
"authors": "Deen, K.; Asselin, E.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Toward Controlled Thermal Energy Storage and Release in Organic Phase Change Materials",
"doi": "10.1016/j.joule.2020.07.011",
"url": "https://doi.org/10.1016/j.joule.2020.07.011",
"journal": "Joule",
"year": 2020,
"authors": "Gerkman, M.; Han, G.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Building Energy Materials",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Asymptotic Cost Analysis of Intercalation Lithium-Ion Systems for Multi-hour Duration Energy Storage",
"doi": "10.1016/j.joule.2020.01.007",
"url": "https://doi.org/10.1016/j.joule.2020.01.007",
"journal": "Joule",
"year": 2020,
"authors": "Ciez, R.; Steingart, D.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Reverse Manufacturing Enables Perovskite Photovoltaics to Reach the Carbon Footprint Limit of a Glass Substrate",
"doi": "10.1016/j.joule.2020.02.001",
"url": "https://doi.org/10.1016/j.joule.2020.02.001",
"journal": "Joule",
"year": 2020,
"authors": "Wagner, L.; Mastroianni, S.; Hinsch, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Iron-Nitrogen-Carbon Catalysts for Proton Exchange Membrane Fuel Cells",
"doi": "10.1016/j.joule.2019.12.002",
"url": "https://doi.org/10.1016/j.joule.2019.12.002",
"journal": "Joule",
"year": 2020,
"authors": "Asset, T.; Atanassov, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Hydrogen & Fuel Cells"
},
{
"title": "Critical Rare-Earth Elements Mismatch Global Wind-Power Ambitions",
"doi": "10.1016/j.oneear.2020.06.009",
"url": "https://doi.org/10.1016/j.oneear.2020.06.009",
"journal": "One Earth",
"year": 2020,
"authors": "Li, J.; Peng, K.; Wang, P.; Zhang, N.; Feng, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Location-Specific Spectral and Thermal Effects in Tracking and Fixed Tilt Photovoltaic Systems",
"doi": "10.1016/j.isci.2020.101634",
"url": "https://doi.org/10.1016/j.isci.2020.101634",
"journal": "iScience",
"year": 2020,
"authors": "Ripalda, J.; Chemisana, D.; Llorens, J.; García, I.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Effects of Deep Reductions in Energy Storage Costs on Highly Reliable Wind and Solar Electricity Systems",
"doi": "10.1016/j.isci.2020.101484",
"url": "https://doi.org/10.1016/j.isci.2020.101484",
"journal": "iScience",
"year": 2020,
"authors": "Tong, F.; Yuan, M.; Lewis, N.; Davis, S.; Caldeira, K.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Business Models and Profitability of Energy Storage",
"doi": "10.1016/j.isci.2020.101554",
"url": "https://doi.org/10.1016/j.isci.2020.101554",
"journal": "iScience",
"year": 2020,
"authors": "Baumgarte, F.; Glenk, G.; Rieger, A.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Toward Tailoring Chemistry of Silica-Based Phase Change Materials for Thermal Energy Storage",
"doi": "10.1016/j.isci.2020.101606",
"url": "https://doi.org/10.1016/j.isci.2020.101606",
"journal": "iScience",
"year": 2020,
"authors": "Chen, X.; Tang, Z.; Chang, Y.; Gao, H.; Cheng, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Building Energy Materials",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Using Existing Infrastructure to Realize Low-Cost and Flexible Photovoltaic Power Generation in Areas with High-Power Demand in China",
"doi": "10.1016/j.isci.2020.101867",
"url": "https://doi.org/10.1016/j.isci.2020.101867",
"journal": "iScience",
"year": 2020,
"authors": "Jiang, M.; Li, J.; Wei, W.; Miao, J.; Zhang, P.",
"abstract": "",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "The arches of chaos in the Solar System",
"doi": "10.1126/sciadv.abd1313",
"url": "https://doi.org/10.1126/sciadv.abd1313",
"journal": "Science Advances",
"year": 2020,
"authors": "Todorović, N.; Wu, D.; Rosengren, A.",
"abstract": "We have discovered an intricate ornamental structure of chaos that leads to very rapid transport for small Solar System bodies.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Black phosphorus quantum dots in inorganic perovskite thin films for efficient photovoltaic application",
"doi": "10.1126/sciadv.aay5661",
"url": "https://doi.org/10.1126/sciadv.aay5661",
"journal": "Science Advances",
"year": 2020,
"authors": "Gong, X.; Guan, L.; Li, Q.; Li, Y.; Zhang, T.",
"abstract": "Black phosphorus quantum dots for efficient photovoltaic application.",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Life cycle energy use and environmental implications of high-performance perovskite tandem solar cells",
"doi": "10.1126/sciadv.abb0055",
"url": "https://doi.org/10.1126/sciadv.abb0055",
"journal": "Science Advances",
"year": 2020,
"authors": "Tian, X.; Stranks, S.; You, F.",
"abstract": "Scalable and high-efficiency perovskite tandem solar cells with long lifetime pave the way for sustainable photovoltaics.",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Chemical anti-corrosion strategy for stable inverted perovskite solar cells",
"doi": "10.1126/sciadv.abd1580",
"url": "https://doi.org/10.1126/sciadv.abd1580",
"journal": "Science Advances",
"year": 2020,
"authors": "Li, X.; Fu, S.; Zhang, W.; Ke, S.; Song, W.",
"abstract": "Chemical anticorrosion of metal electrode with benzotriazole inhibitor enhances the stability of perovskite solar cells.",
"data_url": "",
"source": "CrossRef",
"direction": "CleanTech",
"subcategory": "Solar PV & Storage",
"direction_label": "Novel Low/Zero Carbon Technologies",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Offshore wind: An opportunity for cost-competitive decarbonization of China’s energy economy",
"doi": "10.1126/sciadv.aax9571",
"url": "https://doi.org/10.1126/sciadv.aax9571",
"journal": "Science Advances",
"year": 2020,
"authors": "Sherman, P.; Chen, X.; McElroy, M.",
"abstract": "China can use the latest offshore wind technologies to cost-competitively supply a notable portion of its energy demand.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Renewable Energy Resource Mapping",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "On-demand regulation of photochromic behavior through various counterions for high-level security printing",
"doi": "10.1126/sciadv.aaz2386",
"url": "https://doi.org/10.1126/sciadv.aaz2386",
"journal": "Science Advances",
"year": 2020,
"authors": "Ma, Y.; Yu, Y.; She, P.; Lu, J.; Liu, S.",
"abstract": "A facile strategy was proposed to achieve tunable coloration rates by varying counterions in zinc complexes for security printing.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
},
{
"title": "Projected 21st century changes in extreme wind-wave events",
"doi": "10.1126/sciadv.aaz7295",
"url": "https://doi.org/10.1126/sciadv.aaz7295",
"journal": "Science Advances",
"year": 2020,
"authors": "Meucci, A.; Young, I.; Hemer, M.; Kirezci, E.; Ranasinghe, R.",
"abstract": "Extreme wind-wave events are changing and, by the end of the century, may increase by 5 to 10% over extensive ocean regions.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Wind & Other Renewables"
},
{
"title": "Long-term heat-storage ceramics absorbing thermal energy from hot water",
"doi": "10.1126/sciadv.aaz5264",
"url": "https://doi.org/10.1126/sciadv.aaz5264",
"journal": "Science Advances",
"year": 2020,
"authors": "Nakamura, Y.; Sakai, Y.; Azuma, M.; Ohkoshi, S.",
"abstract": "Heat energy bank: Accumulated heat energy is eternally preserved and extracted on demand by pressure.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Solar Energy Conversion"
},
{
"title": "Novel technology for storage and distribution of live vaccines and other biological medicines at ambient temperature",
"doi": "10.1126/sciadv.aau4819",
"url": "https://doi.org/10.1126/sciadv.aau4819",
"journal": "Science Advances",
"year": 2020,
"authors": "Bajrovic, I.; Schafer, S.; Romanovicz, D.; Croyle, M.",
"abstract": "Temperature-stable dissolving film eliminates cold-chain storage and successfully immunizes mice sublingually and buccally.",
"data_url": "",
"source": "CrossRef",
"direction": "DigiEnergy",
"subcategory": "Load Forecasting & Demand Management",
"direction_label": "AI & Data Science for Urban Energy Systems",
"refined_category": "Energy Storage & Batteries"
}
]