Delete material

material/Material-v0/M001/en.dataset.jsonl

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-{"Question_id":"M001/0000","Question Type":"Multiple Choice","Images":["M001/mp-353-lattice.png"],"Ground Truth":["A","B","D","E","F"],"Text":"Based on the provided lattice diagram <image>, thoroughly analyze these views to identify correct descriptions from the options given below.","Answer Choices":["(A) The chemical formula of the lattice is Ag₂O.","(B) The O²⁻ anions form a body-centered cubic sublattice.","(C) Each O²⁻ is octahedrally coordinated by six Ag⁺ cations.","(D) Each Ag⁺ is linearly coordinated by two O²⁻ with a 180° bond angle.","(E) Each O²⁻ is tetrahedrally coordinated by four Ag⁺.","(F) There are two Ag₂O formula units per conventional cubic unit cell.","(G) All tetrahedral interstitial sites of the O sublattice are fully occupied by Ag⁺."],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M001/0001","Question Type":"Multiple Choice","Images":["M001/mp-661-lattice.png"],"Ground Truth":["A","B","C","E","F","G"],"Text":"Based on the provided lattice diagram <image>, thoroughly analyze these views to identify correct descriptions from the options given below.","Answer Choices":["(A) The chemical formula of the lattice is AlN.","(B) The N³⁻ anions form a hexagonal close-packed sublattice.","(C) Each N³⁻ is tetrahedrally coordinated by four Al³⁺ cations.","(D) Each Al³⁺ is octahedrally coordinated by six N³⁻ anions.","(E) Al³⁺ cations occupy exactly half of the tetrahedral voids in the N³⁻ hcp lattice.","(F) The conventional hexagonal unit cell contains four AlN formula units.","(G) The anion stacking sequence along the c-axis is ABAB."],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M001/0002","Question Type":"Multiple Choice","Images":["M001/mp-856-lattice.png"],"Ground Truth":["A","C","D","E","F"],"Text":"Based on the provided lattice diagram <image>, thoroughly analyze these views to identify correct descriptions from the options given below.","Answer Choices":["(A) The chemical formula of the lattice is SnO₂.","(B) The O²⁻ anions form a face-centered cubic sublattice.","(C) Each Sn⁴⁺ is octahedrally coordinated by six O²⁻ anions.","(D) Each O²⁻ is three-coordinated by three Sn⁴⁺ cations.","(E) Sn⁴⁺ cations occupy exactly half of the octahedral voids in the O²⁻ lattice.","(F) The conventional tetragonal unit cell contains two SnO₂ formula units.","(G) The O²⁻ layers stack in an ABCABC… sequence along the c-axis."],"Dataset":"https://next-gen.materialsproject.org/"}

material/Material-v0/M001/zh.dataset.jsonl

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-{"Question_id":"M001/0000","Question Type":"Multiple Choice","Images":["M001/mp-353-lattice.png"],"Ground Truth":["A","B","D","E","F"],"Text":"根据所提供的晶格图像<image>，请深入分析这些视图，从下面的选项中识别出正确的描述。","Answer Choices":["(A) 晶格的化学式是 Ag₂O。","(B) O²⁻ 阴离子形成体心立方子晶格。","(C) 每个 O²⁻ 被六个 Ag⁺ 配位，呈八面体构型。","(D) 每个 Ag⁺ 被两个 O²⁻ 线性配位，夹角为 180°。","(E) 每个 O²⁻ 被四个 Ag⁺ 四面体配位。","(F) 每个常规立方晶胞中包含两个 Ag₂O 化学式单元。","(G) O 子晶格中的所有四面体间隙位点都被 Ag⁺ 完全占据。"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M001/0001","Question Type":"Multiple Choice","Images":["M001/mp-661-lattice.png"],"Ground Truth":["A","B","C","E","F","G"],"Text":"根据所提供的晶格图像<image>，请深入分析这些视图，从下面的选项中识别出正确的描述。","Answer Choices":["(A) 晶格的化学式是 AlN。","(B) N³⁻ 阴离子形成六方最密堆积子晶格。","(C) 每个 N³⁻ 被四个 Al³⁺ 四面体配位。","(D) 每个 Al³⁺ 被六个 N³⁻ 八面体配位。","(E) Al³⁺ 占据 N³⁻ hcp 晶格中恰好一半的四面体空位。","(F) 常规六方晶胞中包含四个 AlN 化学式单元。","(G) 沿 c 轴方向的阴离子堆积顺序是 ABAB。"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M001/0002","Question Type":"Multiple Choice","Images":["M001/mp-856-lattice.png"],"Ground Truth":["A","C","D","E","F"],"Text":"根据所提供的晶格图像<image>，请深入分析这些视图，从下面的选项中识别出正确的描述。","Answer Choices":["(A) 晶格的化学式是 SnO₂。","(B) O²⁻ 阴离子形成面心立方子晶格。","(C) 每个 Sn⁴⁺ 被六个 O²⁻ 八面体配位。","(D) 每个 O²⁻ 被三个 Sn⁴⁺ 三重配位。","(E) Sn⁴⁺ 占据 O²⁻ 晶格中恰好一半的八面体空位。","(F) 常规四方晶胞中包含两个 SnO₂ 化学式单元。","(G) O²⁻ 层沿 c 轴方向以 ABCABC… 顺序堆叠。"],"Dataset":"https://next-gen.materialsproject.org/"}

material/Material-v0/M002/en.dataset.jsonl

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-{"Question_id":"M002/0000","Question Type":"Exact Match","Images":["M002/mp-353-lattice.png"],"Ground Truth":"Pn3̅m1","Text":"Based on the provided lattice diagram <image>, determine the most likely space group of the material.","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M002/0001","Question Type":"Exact Match","Images":["M002/mp-661-lattice.png"],"Ground Truth":"P6₃mc","Text":"Based on the provided lattice diagram <image>, determine the most likely space group of the material.","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M002/0002","Question Type":"Exact Match","Images":["M002/mp-856-lattice.png"],"Ground Truth":"P4₂/mnm","Text":"Based on the provided lattice diagram <image>, determine the most likely space group of the material.","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M002/0003","Question Type":"Exact Match","Images":["M002/mp-1000-lattice.png"],"Ground Truth":"Fm3̅m","Text":"Based on the provided lattice diagram <image>, determine the most likely space group of the material.","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M002/0004","Question Type":"Exact Match","Images":["M002/mp-1479-lattice.png"],"Ground Truth":"F4̅3m","Text":"Based on the provided lattice diagram <image>, determine the most likely space group of the material.","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M002/0005","Question Type":"Exact Match","Images":["M002/mp-2284-lattice.png"],"Ground Truth":"Pbca","Text":"Based on the provided lattice diagram <image>, determine the most likely space group of the material.","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M002/0006","Question Type":"Exact Match","Images":["M002/mp-2294-lattice.png"],"Ground Truth":"P6₃/mmc","Text":"Based on the provided lattice diagram <image>, determine the most likely space group of the material.","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M002/0007","Question Type":"Exact Match","Images":["M002/mp-10044-lattice.png"],"Ground Truth":"F4̅3m","Text":"Based on the provided lattice diagram <image>, determine the most likely space group of the material.","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}

material/Material-v0/M002/zh.dataset.jsonl

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-{"Question_id":"M002/0000","Question Type":"Exact Match","Images":["M002/mp-353-lattice.png"],"Ground Truth":"Pn3̅m1","Text":"根据所提供的晶格图像<image>，请判断该材料最可能的空间群","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M002/0001","Question Type":"Exact Match","Images":["M002/mp-661-lattice.png"],"Ground Truth":"P6₃mc","Text":"根据所提供的晶格图像<image>，请判断该材料最可能的空间群","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M002/0002","Question Type":"Exact Match","Images":["M002/mp-856-lattice.png"],"Ground Truth":"P4₂/mnm","Text":"根据所提供的晶格图像<image>，请判断该材料最可能的空间群","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M002/0003","Question Type":"Exact Match","Images":["M002/mp-1000-lattice.png"],"Ground Truth":"Fm3̅m","Text":"根据所提供的晶格图像<image>，请判断该材料最可能的空间群","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M002/0004","Question Type":"Exact Match","Images":["M002/mp-1479-lattice.png"],"Ground Truth":"F4̅3m","Text":"根据所提供的晶格图像<image>，请判断该材料最可能的空间群","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M002/0005","Question Type":"Exact Match","Images":["M002/mp-2284-lattice.png"],"Ground Truth":"Pbca","Text":"根据所提供的晶格图像<image>，请判断该材料最可能的空间群","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M002/0006","Question Type":"Exact Match","Images":["M002/mp-2294-lattice.png"],"Ground Truth":"P6₃/mmc","Text":"根据所提供的晶格图像<image>，请判断该材料最可能的空间群","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M002/0007","Question Type":"Exact Match","Images":["M002/mp-10044-lattice.png"],"Ground Truth":"F4̅3m","Text":"根据所提供的晶格图像<image>，请判断该材料最可能的空间群","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}

material/Material-v0/M003/en.dataset.jsonl

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-{"Question_id":"M003/0000","Question Type":"Exact Match","Images":["M003/mp-353-lattice.png"],"Ground Truth":"Ag₂O","Text":"Based on the provided lattice diagram <image>, determine the molecular formula of the material","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M003/0001","Question Type":"Exact Match","Images":["M003/mp-661-lattice.png"],"Ground Truth":"AlN","Text":"Based on the provided lattice diagram <image>, determine the molecular formula of the material","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M003/0002","Question Type":"Exact Match","Images":["M003/mp-856-lattice.png"],"Ground Truth":"SnO₂","Text":"Based on the provided lattice diagram <image>, determine the molecular formula of the material","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M003/0003","Question Type":"Exact Match","Images":["M003/mp-1000-lattice.png"],"Ground Truth":"BaTe","Text":"Based on the provided lattice diagram <image>, determine the molecular formula of the material","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M003/0004","Question Type":"Exact Match","Images":["M003/mp-1479-lattice.png"],"Ground Truth":"BP","Text":"Based on the provided lattice diagram <image>, determine the molecular formula of the material","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M003/0005","Question Type":"Exact Match","Images":["M003/mp-2284-lattice.png"],"Ground Truth":"AgF₂","Text":"Based on the provided lattice diagram <image>, determine the molecular formula of the material","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M003/0006","Question Type":"Exact Match","Images":["M003/mp-2294-lattice.png"],"Ground Truth":"Al₃Ir","Text":"Based on the provided lattice diagram <image>, determine the molecular formula of the material","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M003/0007","Question Type":"Exact Match","Images":["M003/mp-10044-lattice.png"],"Ground Truth":"BAs","Text":"Based on the provided lattice diagram <image>, determine the molecular formula of the material","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}

material/Material-v0/M003/zh.dataset.jsonl

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-{"Question_id":"M003/0000","Question Type":"Exact Match","Images":["M003/mp-353-lattice.png"],"Ground Truth":"Ag₂O","Text":"根据提供的晶格图像<image>，给出该材料的分子式","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M003/0001","Question Type":"Exact Match","Images":["M003/mp-661-lattice.png"],"Ground Truth":"AlN","Text":"根据提供的晶格图像<image>，给出该材料的分子式","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M003/0002","Question Type":"Exact Match","Images":["M003/mp-856-lattice.png"],"Ground Truth":"SnO₂","Text":"根据提供的晶格图像<image>，给出该材料的分子式","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M003/0003","Question Type":"Exact Match","Images":["M003/mp-1000-lattice.png"],"Ground Truth":"BaTe","Text":"根据提供的晶格图像<image>，给出该材料的分子式","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M003/0004","Question Type":"Exact Match","Images":["M003/mp-1479-lattice.png"],"Ground Truth":"BP","Text":"根据提供的晶格图像<image>，给出该材料的分子式","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M003/0005","Question Type":"Exact Match","Images":["M003/mp-2284-lattice.png"],"Ground Truth":"AgF₂","Text":"根据提供的晶格图像<image>，给出该材料的分子式","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M003/0006","Question Type":"Exact Match","Images":["M003/mp-2294-lattice.png"],"Ground Truth":"Al₃Ir","Text":"根据提供的晶格图像<image>，给出该材料的分子式","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M003/0007","Question Type":"Exact Match","Images":["M003/mp-10044-lattice.png"],"Ground Truth":"BAs","Text":"根据提供的晶格图像<image>，给出该材料的分子式","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}

material/Material-v0/M004/en.dataset.jsonl

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-{"Question_id":"M004/0000","Question Type":"Exact Match","Images":["M004/mp-353-lattice.png"],"Ground Truth":"Ag: +1, O: -2","Text":"Based on the provided lattice diagram <image>, determine the oxidation state of each element","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M004/0001","Question Type":"Exact Match","Images":["M004/mp-661-lattice.png"],"Ground Truth":"Al: +3, N: -3","Text":"Based on the provided lattice diagram <image>, determine the oxidation state of each element","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M004/0002","Question Type":"Exact Match","Images":["M004/mp-856-lattice.png"],"Ground Truth":"Sn: +4, O: -2","Text":"Based on the provided lattice diagram <image>, determine the oxidation state of each element","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M004/0003","Question Type":"Exact Match","Images":["M004/mp-1000-lattice.png"],"Ground Truth":"Ba: +2, Te: -2","Text":"Based on the provided lattice diagram <image>, determine the oxidation state of each element","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M004/0004","Question Type":"Exact Match","Images":["M004/mp-1479-lattice.png"],"Ground Truth":"B: +3, P: -3","Text":"Based on the provided lattice diagram <image>, determine the oxidation state of each element","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M004/0005","Question Type":"Exact Match","Images":["M004/mp-2284-lattice.png"],"Ground Truth":"Ag: +2, F: -1","Text":"Based on the provided lattice diagram <image>, determine the oxidation state of each element","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M004/0006","Question Type":"Exact Match","Images":["M004/mp-2294-lattice.png"],"Ground Truth":"Al: 0, Ir: 0","Text":"Based on the provided lattice diagram <image>, determine the oxidation state of each element","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M004/0007","Question Type":"Exact Match","Images":["M004/mp-10044-lattice.png"],"Ground Truth":"B: +3, As: -3","Text":"Based on the provided lattice diagram <image>, determine the oxidation state of each element","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}

material/Material-v0/M004/zh.dataset.jsonl

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-{"Question_id":"M004/0000","Question Type":"Exact Match","Images":["M004/mp-353-lattice.png"],"Ground Truth":"Ag: +1, O: -2","Text":"根据所提供的晶格图像<image>，判断每种元素的氧化态","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M004/0001","Question Type":"Exact Match","Images":["M004/mp-661-lattice.png"],"Ground Truth":"Al: +3, N: -3","Text":"根据所提供的晶格图像<image>，判断每种元素的氧化态","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M004/0002","Question Type":"Exact Match","Images":["M004/mp-856-lattice.png"],"Ground Truth":"Sn: +4, O: -2","Text":"根据所提供的晶格图像<image>，判断每种元素的氧化态","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M004/0003","Question Type":"Exact Match","Images":["M004/mp-1000-lattice.png"],"Ground Truth":"Ba: +2, Te: -2","Text":"根据所提供的晶格图像<image>，判断每种元素的氧化态","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M004/0004","Question Type":"Exact Match","Images":["M004/mp-1479-lattice.png"],"Ground Truth":"B: +3, P: -3","Text":"根据所提供的晶格图像<image>，判断每种元素的氧化态","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M004/0005","Question Type":"Exact Match","Images":["M004/mp-2284-lattice.png"],"Ground Truth":"Ag: +2, F: -1","Text":"根据所提供的晶格图像<image>，判断每种元素的氧化态","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M004/0006","Question Type":"Exact Match","Images":["M004/mp-2294-lattice.png"],"Ground Truth":"Al: 0, Ir: 0","Text":"根据所提供的晶格图像<image>，判断每种元素的氧化态","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M004/0007","Question Type":"Exact Match","Images":["M004/mp-10044-lattice.png"],"Ground Truth":"B: +3, As: -3","Text":"根据所提供的晶格图像<image>，判断每种元素的氧化态","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}

material/Material-v0/M006/en.dataset.jsonl

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-{"Question_id":"M006/0000","Question Type":"Multiple Choice","Images":["M006/mp-353-phase-diagram.png"],"Ground Truth":["C"],"Text":"Based on the given phase diagram <image>, at what composition ratio does the material exhibit its most thermodynamically stable phase","Answer Choices":["(A) Ag (O fraction = 0)","(B) Ag₂O (O fraction ≈ 0.33)","(C) AgO (O fraction ≈ 0.50)","(D) Ag₃O₄ (O fraction ≈ 0.57)","(E) O (O fraction = 1.00)"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0001","Question Type":"Multiple Choice","Images":["M006/mp-661-phase-diagram.png"],"Ground Truth":["C"],"Text":"Based on the given phase diagram <image>, at what composition ratio does the material exhibit its most thermodynamically stable phase","Answer Choices":["(A) Al (N fraction = 0)","(B) Al₃N₂ (N fraction = 0.4)","(C) AlN (N fraction = 0.5)","(D) Al₃N₄ (N fraction ≈ 0.57)","(E) N (N fraction = 1)"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0002","Question Type":"Multiple Choice","Images":["M006/mp-856-phase-diagram.png"],"Ground Truth":["C"],"Text":"Based on the given phase diagram <image>, at what composition ratio does the material exhibit its most thermodynamically stable phase","Answer Choices":["(A) Sn (O fraction = 0)","(B) SnO (O fraction = 0.5)","(C) SnO₂ (O fraction ≈ 0.67)","(D) O (O fraction = 1)"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0003","Question Type":"Multiple Choice","Images":["M006/mp-1000-phase-diagram.png"],"Ground Truth":["B"],"Text":"Based on the given phase diagram <image>, at what composition ratio does the material exhibit its most thermodynamically stable phase","Answer Choices":["(A) Ba (Te fraction = 0)","(B) BaTe (Te fraction = 0.5)","(C) BaTe₂ (Te fraction ≈ 0.67)","(D) BaTe₃ (Te fraction = 0.75)","(E) Te (Te fraction = 1.00)"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0004","Question Type":"Multiple Choice","Images":["M006/mp-1479-phase-diagram.png"],"Ground Truth":["D"],"Text":"Based on the given phase diagram <image>, at what composition ratio does the material exhibit its most thermodynamically stable phase","Answer Choices":["(A) B (P fraction = 0.00)","(B) B₆P (P fraction ≈ 0.14)","(C) B₃P (P fraction = 0.25)","(D) BP (P fraction = 0.50)","(E) P (P fraction = 1.00)"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0005","Question Type":"Multiple Choice","Images":["M006/mp-2284-phase-diagram.png"],"Ground Truth":["D"],"Text":"Based on the given phase diagram <image>, at what composition ratio does the material exhibit its most thermodynamically stable phase","Answer Choices":["(A) Ag (F fraction = 0.00)","(B) Ag₂F (F fraction ≈ 0.33)","(C) AgF (F fraction = 0.50)","(D) AgF₂ (F fraction ≈ 0.67)","(E) F (F fraction = 1.00)"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0006","Question Type":"Multiple Choice","Images":["M006/mp-2294-phase-diagram.png"],"Ground Truth":["D"],"Text":"Based on the given phase diagram <image>, at what composition ratio does the material exhibit its most thermodynamically stable phase","Answer Choices":["(A) Al (Ir fraction = 0.00)","(B) Al₉Ir₂ (Ir fraction ≈ 0.18)","(C) Al₃Ir (Ir fraction = 0.25)","(D) AlIr (Ir fraction = 0.50)","(E) Ir (Ir fraction = 1.00)"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0007","Question Type":"Multiple Choice","Images":["M006/mp-10044-phase-diagram.png"],"Ground Truth":["B"],"Text":"Based on the given phase diagram <image>, at what composition ratio does the material exhibit its most thermodynamically stable phase","Answer Choices":["(A) B (As fraction = 0.00)","(B) B₆As (As fraction ≈ 0.14)","(C) BAs (As fraction = 0.50)","(D) BAs₂ (As fraction ≈ 0.67)","(E) As (As fraction = 1.00)"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0008","Question Type":"Multiple Choice","Images":["M006/mp-10086-phase-diagram.png"],"Ground Truth":["B"],"Text":"Based on the given convex-hull phase diagram <image>, at which composition ratio does the material exhibit its most thermodynamically stable phase","Answer Choices":["(A) S₃FY₂","(B) SF₂Y","(C) SY","(D) S₂F","(E) FY"],"Dataset":"https://next-gen.materialsproject.org/"}

material/Material-v0/M006/zh.dataset.jsonl

@@ -1,9 +0,0 @@
-{"Question_id":"M006/0000","Question Type":"Multiple Choice","Images":["M006/mp-353-phase-diagram.png"],"Ground Truth":["C"],"Text":"根据所给的相图 <image>，材料在什么组成比例下表现出最热力学稳定的相态？","Answer Choices":["(A) Ag（氧含量 = 0）","(B) Ag₂O（氧含量 ≈ 0.33）","(C) AgO（氧含量 ≈ 0.50）","(D) Ag₃O₄（氧含量 ≈ 0.57）","(E) O（氧含量 = 1.00）"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0001","Question Type":"Multiple Choice","Images":["M006/mp-661-phase-diagram.png"],"Ground Truth":["C"],"Text":"根据所给的相图 <image>，材料在什么组成比例下表现出最热力学稳定的相态？","Answer Choices":["(A) Al（氮含量 = 0）","(B) Al₃N₂（氮含量 = 0.4）","(C) AlN（氮含量 = 0.5）","(D) Al₃N₄（氮含量 ≈ 0.57）","(E) N（氮含量 = 1）"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0002","Question Type":"Multiple Choice","Images":["M006/mp-856-phase-diagram.png"],"Ground Truth":["C"],"Text":"根据所给的相图 <image>，材料在什么组成比例下表现出最热力学稳定的相态？","Answer Choices":["(A) Sn（氧含量 = 0）","(B) SnO（氧含量 = 0.5）","(C) SnO₂（氧含量 ≈ 0.67）","(D) O（氧含量 = 1）"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0003","Question Type":"Multiple Choice","Images":["M006/mp-1000-phase-diagram.png"],"Ground Truth":["B"],"Text":"根据所给的相图 <image>，材料在什么组成比例下表现出最热力学稳定的相态？","Answer Choices":["(A) Ba（Te 含量 = 0）","(B) BaTe（Te 含量 = 0.5）","(C) BaTe₂（Te 含量 ≈ 0.67）","(D) BaTe₃（Te 含量 = 0.75）","(E) Te（Te 含量 = 1.00）"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0004","Question Type":"Multiple Choice","Images":["M006/mp-1479-phase-diagram.png"],"Ground Truth":["D"],"Text":"根据所给的相图 <image>，材料在什么组成比例下表现出最热力学稳定的相态？","Answer Choices":["(A) B（P 含量 = 0.00）","(B) B₆P（P 含量 ≈ 0.14）","(C) B₃P（P 含量 = 0.25）","(D) BP（P 含量 = 0.50）","(E) P（P 含量 = 1.00）"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0005","Question Type":"Multiple Choice","Images":["M006/mp-2284-phase-diagram.png"],"Ground Truth":["D"],"Text":"根据所给的相图 <image>，材料在什么组成比例下表现出最热力学稳定的相态？","Answer Choices":["(A) Ag（F 含量 = 0.00）","(B) Ag₂F（F 含量 ≈ 0.33）","(C) AgF（F 含量 = 0.50）","(D) AgF₂（F 含量 ≈ 0.67）","(E) F（F 含量 = 1.00）"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0006","Question Type":"Multiple Choice","Images":["M006/mp-2294-phase-diagram.png"],"Ground Truth":["D"],"Text":"根据所给的相图 <image>，材料在什么组成比例下表现出最热力学稳定的相态？","Answer Choices":["(A) Al（Ir 含量 = 0.00）","(B) Al₉Ir₂（Ir 含量 ≈ 0.18）","(C) Al₃Ir（Ir 含量 = 0.25）","(D) AlIr（Ir 含量 = 0.50）","(E) Ir（Ir 含量 = 1.00）"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0007","Question Type":"Multiple Choice","Images":["M006/mp-10044-phase-diagram.png"],"Ground Truth":["B"],"Text":"根据所给的相图 <image>，材料在什么组成比例下表现出最热力学稳定的相态？","Answer Choices":["(A) B（As 含量 = 0.00）","(B) B₆As（As 含量 ≈ 0.14）","(C) BAs（As 含量 = 0.50）","(D) BAs₂（As 含量 ≈ 0.67）","(E) As（As 含量 = 1.00）"],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M006/0008","Question Type":"Multiple Choice","Images":["M006/mp-10086-phase-diagram.png"],"Ground Truth":["B"],"Text":"根据所给的凸包相图 <image>，材料在什么组成比例下表现出最热力学稳定的相态？","Answer Choices":["(A) S₃FY₂","(B) SF₂Y","(C) SY","(D) S₂F","(E) FY"],"Dataset":"https://next-gen.materialsproject.org/"}

material/Material-v0/M008/en.dataset.jsonl

@@ -1,4 +0,0 @@
-{"Question_id":"M008/0000","Question Type":"Open Question","Images":["M008/mp-353-eb-dos.png"],"Ground Truth":"The material is metallic (bands cross the Fermi level). Electronic states near the Fermi level dominated by Ag atoms.","Text":"Based on the given band structure and DOS <image>, is the material metallic or semiconducting? What could be concluded more from the graph?","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M008/0001","Question Type":"Open Question","Images":["M008/mp-661-eb-dos.png"],"Ground Truth":"The material is wide bandgap semiconductor (with bandgap about 4 meV). N-2p domimated the valence band states, while N and Al atoms together dominate the conduction band states. VBM and CBM located at the same high-symmetry points, indicating AlN a direct bandgap materials.","Text":"Based on the given band structure and DOS <image>, is the material metallic or semiconducting? What could be concluded more from the graph?","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M008/0002","Question Type":"Open Question","Images":["M008/mp-856-eb-dos.png"],"Ground Truth":"The material has a bandgap of 0.65 meV, exhibiting direct bandgap (VBM and CBM located at same high symmetry point)","Text":"Based on the given band structure and DOS <image>, is the material metallic or semiconducting? What could be concluded more from the graph?","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}
-{"Question_id":"M008/0003","Question Type":"Open Question","Images":["M008/mp-1000-eb-dos.png"],"Ground Truth":"The material is semicondutor, with a bandgap of about 1.59eV.","Text":"Based on the given band structure and DOS <image>, is the material metallic or semiconducting? What could be concluded more from the graph?","Answer Choices":[],"Dataset":"https://next-gen.materialsproject.org/"}