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|---|---|---|---|---|---|---|---|
C001/0012 | From the molecular structure <image>, list all the unique elements present in the compound and the number of atoms of each. | [] | {'C': 9, 'H': 9, 'Hg': 1, 'Na': 1, 'O': 2, 'S': 1} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C001_0012_e40044b2cd428b6edb8321a7954ef332.png"
] | open_ended | chemistry | en |
C001/0013 | From the molecular structure <image>, list all the unique elements present in the compound and the number of atoms of each. | [] | {'C': 14, 'H': 12, 'O': 3} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C001_0013_b4d81e04fab569c1d663397d32b19b52.png"
] | open_ended | chemistry | en |
C001/0014 | From the molecular structure <image>, list all the unique elements present in the compound and the number of atoms of each. | [] | {'C': 21, 'H': 33, 'B': 1, 'N': 6, 'O': 5} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C001_0014_4be7f88ee5532ec60c02edd7e59f010b.png"
] | open_ended | chemistry | en |
C003/0000 | From the molecular structure <image>, provide the molecular IUPAC name. | [] | (3R)-1-benzyl-3-phenylpyrrolidin-3-ol | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C003_0000_8e416a509ad21dcdb0321e324dbf2cc2.png"
] | exact_match | chemistry | en |
C003/0001 | From the molecular structure <image>, provide the molecular IUPAC name. | [] | 3-ethyl-5-methoxy-2-methyl-6-methylsulfanyl-1,3-benzothiazol-3-ium | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C003_0001_219e08ec9254dee8f7b18df2258ab239.png"
] | exact_match | chemistry | en |
C003/0002 | From the molecular structure <image>, provide the molecular IUPAC name. | [] | N-[1-(6-methylpyridazin-3-yl)ethylidene]azepane-1-carbohydrazonothioic acid | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C003_0002_03a40e725a133c041de8a2df9a171fd7.png"
] | exact_match | chemistry | en |
C003/0003 | From the molecular structure <image>, provide the molecular IUPAC name. | [] | N,N'-dihydroxy-2,5-dimethylhexa-2,4-dienediamide | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C003_0003_052a22309f70da942187cadd63b01f6f.png"
] | exact_match | chemistry | en |
C003/0004 | From the molecular structure <image>, provide the molecular IUPAC name. | [] | 4-(8,9-dihydro-7H-benzo[7]annulen-5-yl)-3,5-dimethyl-1,2-oxazole | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C003_0004_6906a1f8d971c76711a8308463b01b53.png"
] | exact_match | chemistry | en |
C003/0005 | From the molecular structure <image>, provide the molecular IUPAC name. | [] | 2-[4-(2,2-dimethylhydrazinyl)-2,2,4,4-tetrafluoro-1,3-dimethyl-1,3,2lambda5,4lambda5-diazadiphosphetidin-2-yl]-1,1-dimethylhydrazine | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C003_0005_4d5d63166a084977c363a2431bed6bcb.png"
] | exact_match | chemistry | en |
C003/0006 | From the molecular structure <image>, provide the molecular IUPAC name. | [] | 2-[[4-butyl-5-(furan-2-yl)-1,2,4-triazol-3-yl]sulfanyl]-N-(6-methylpyridin-2-yl)acetamide | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C003_0006_e932719a325ad8c8ef64b66d42e487de.png"
] | exact_match | chemistry | en |
C003/0007 | From the molecular structure <image>, provide the molecular IUPAC name. | [] | (7S,9S)-9-acetyl-6,9,11-trihydroxy-7-[(2R,4S,5S,6S)-5-hydroxy-6-methyl-4-morpholin-4-yloxan-2-yl]oxy-4-methoxy-8,10-dihydro-7H-tetracene-5,12-dione;hydrobromide | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C003_0007_1f21274e00537a09af8b3bf142f37a85.png"
] | exact_match | chemistry | en |
C003/0008 | From the molecular structure <image>, provide the molecular IUPAC name. | [] | N-[(5S,5aS,8aR,9R)-9-(4-hydroxy-3,5-dimethoxyphenyl)-8-oxo-5a,6,8a,9-tetrahydro-5H-[2]benzofuro[5,6-f][1,3]benzodioxol-5-yl]-2-hydroxybenzamide | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C003_0008_3c18ced1d010f3debb0d813ac4ec6ba2.png"
] | exact_match | chemistry | en |
C003/0009 | From the molecular structure <image>, provide the molecular IUPAC name. | [] | 3,4,5,14-tetramethoxy-18-methyl-18-azatetracyclo[8.5.3.01,11.02,7]octadeca-2,4,6,11,14-pentaen-13-one | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C003_0009_6d566c62d421858b5ab3bb4d2e2714ce.png"
] | exact_match | chemistry | en |
C003/0010 | From the molecular structure <image>, provide the molecular IUPAC name. | [] | butan-2-yl diethyl phosphate | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C003_0010_d8b51869d41795f32eb9480f3c32f760.png"
] | exact_match | chemistry | en |
C003/0011 | From the molecular structure <image>, provide the molecular IUPAC name. | [] | (1S)-2-oxocyclopentane-1-carbaldehyde | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C003_0011_fc65d3a51c670d42c3f3e53feb35081e.png"
] | exact_match | chemistry | en |
C003/0012 | From the molecular structure <image>, provide the molecular IUPAC name. | [] | 5-[4-phenyl-5-(trifluoromethyl)thiophen-2-yl]-1H-pyrazol-3-amine | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C003_0012_74aed495b51f383d37a2821f871e6e68.png"
] | exact_match | chemistry | en |
C003/0013 | From the molecular structure <image>, provide the molecular IUPAC name. | [] | 1-(2-chlorophenyl)-3-(2-pyrrolidin-1-ylethyl)urea | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C003_0013_0fb5e7c5ed8d90604e218c20ae22343e.png"
] | exact_match | chemistry | en |
C003/0014 | From the molecular structure <image>, provide the molecular IUPAC name. | [] | 4,5-dinitro-1,2-oxazol-3-one | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C003_0014_f35925a5f92669debda61ef8c78fb0c9.png"
] | exact_match | chemistry | en |
C018/0000 | Below are eight individual molecules, each annotated with a property. Select all molecules that exhibit superior performance in their respective property. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['A', 'B', 'C', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0000_A_9c05ce2686f32a1b64b652550c1439c6.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0000_B_0431784946b426e721d1ea20cd447f53.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0000_C_be33b379feabedbde51e46fa4bfd47ff.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0000_D_e3322a66764747c6616ab7adba305e2b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0000_E_2eb2968b465287c3a2d1abef91f4984f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0000_F_7b56d40e2550b1eab9a27dfde6f72ef2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0000_G_5e722d39d4199e7d037fd872b5e7a50b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0000_H_0963cc969b01d6934871b8797629c73c.png"
] | mcq | chemistry | en |
C018/0001 | Below are eight individual molecules, each annotated with a property. Select all molecules that exhibit superior performance in their respective property. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['B', 'C', 'D', 'G'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0001_A_b067a8065afac970f09664392058736c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0001_B_44b3b2649bfe36c2cf0a6d46abe87333.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0001_C_f6c5a53b74e1d3586fc5ef5a64601881.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0001_D_5885aae4cb1915b4847ed65eaaf73648.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0001_E_b38937f1968da5fdc73190bc84a54d3e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0001_F_e90bcf5f8ab745406190c22837039dc1.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0001_G_6a659dc71a33ef6c4e0572c546f6c2db.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0001_H_d22aed1a49bc7dfa28fd2a428ec576b0.png"
] | mcq | chemistry | en |
C018/0002 | Below are eight individual molecules, each annotated with a property. Select all molecules that exhibit superior performance in their respective property. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['C', 'D', 'E', 'H'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0002_A_1c0752178d763ce9793eb3369af2d1e7.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0002_B_720d9066ebe708e0fc515b88c3f3b36c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0002_C_fe97beed2fed1fcd243b23db6b6a8c06.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0002_D_f7e8b8c3aa9cb20f731e20db105aa0a4.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0002_E_2e6452bc278612e456e2663ad5a24bce.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0002_F_d153d170d39bce72df7e0a140ab61fc2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0002_G_44917124d05de29e9ab202d7bdc477b1.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0002_H_60840f94754e8c87ef7d28ae6097a8dc.png"
] | mcq | chemistry | en |
C018/0003 | Below are eight individual molecules, each annotated with a property. Select all molecules that exhibit superior performance in their respective property. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['A', 'B', 'F', 'G'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0003_A_ac2046d7c3f381d1943576f943feaaca.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0003_B_f5474026816c88d06fc14e9b0f74ed09.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0003_C_0f1b8d6bd2fd3b6c7a2ef34ea093d6fd.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0003_D_afae42a133f3f63a70db7ee958715f0c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0003_E_aaba6bff1ee13c667ffcb382ce9a4b59.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0003_F_9a3e82121588ed43cb99558d87e144b0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0003_G_8123518f0e3b3ace5a7022868f8dbddc.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0003_H_6a5a3688665f438478808f7f823fdb64.png"
] | mcq | chemistry | en |
C018/0004 | Below are eight individual molecules, each annotated with a property. Select all molecules that exhibit superior performance in their respective property. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['A', 'E', 'F', 'G'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0004_A_0f1604b4f86518aef0f437aa3a764a55.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0004_B_9cce6b30d48e65177d665ac0a65fd290.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0004_C_6f69103a163a62aeb421d53f27301997.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0004_D_5aa042f22ae64b7784fe63d9701b924d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0004_E_fa9567c47f588b0a87ea2c2e7628f4f4.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0004_F_aa46e7d5e0c3018085fcf848386af6d3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0004_G_97cab49df5c8d6282014b2bae802d255.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0004_H_1f645e8ef2298e27b7d969de9e9d265f.png"
] | mcq | chemistry | en |
C018/0005 | Below are eight individual molecules, each annotated with a property. Select all molecules that exhibit superior performance in their respective property. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['A', 'C', 'G', 'H'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0005_A_fe97beed2fed1fcd243b23db6b6a8c06.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0005_B_0bbb7d87959f2b9e711c353d5566f560.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0005_C_d6071cd38c47d9633872669200cd45bf.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0005_D_1aa8aa3e76bb9db52b005415bf126305.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0005_E_140c349d91f9ad9d7d85dbb798ce1143.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0005_F_8d63bd5741f10fe625a65b10698fb9f5.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0005_G_c5353a17963a0a645f6aab967f5b947d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0005_H_0a7228bc0b0c158b71154ed0a2a79d53.png"
] | mcq | chemistry | en |
C018/0006 | Below are eight individual molecules, each annotated with a property. Select all molecules that exhibit superior performance in their respective property. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['C', 'D', 'E', 'H'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0006_A_502297b41bf9e61aa52386fa7dd5ee95.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0006_B_3e395cf570e802d86e1ca165d07e7cfa.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0006_C_ea483dbc97a911ddcf898996223a9e30.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0006_D_aada060078cc6e8e5e9fbe1184317974.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0006_E_135218bf8686f578a8a60744b1882e6e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0006_F_773916b371d97bc3dd83620b83695214.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0006_G_5170ac92acdccf43416a6798f9176e5b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0006_H_678cf159813bd45e82855ab57e60b188.png"
] | mcq | chemistry | en |
C018/0007 | Below are eight individual molecules, each annotated with a property. Select all molecules that exhibit superior performance in their respective property. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['A', 'B', 'D', 'H'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0007_A_6e187ea879ceb8ed643a4059bece857e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0007_B_da31e8fe5c2d9df116d57d713d9b6b62.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0007_C_b60867dc9886bb922e727023d59f62fa.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0007_D_4cd80461c095871ada84d7d0859f486c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0007_E_fb73cfd64a5da7a8969d718dc9d4c718.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0007_F_f220be5db9a796d73163f5c4f8a89f0f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0007_G_c58371672673f03b9a91ad2d9b0a6851.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0007_H_75a4c85b58e250b072628a2dec9f0d8e.png"
] | mcq | chemistry | en |
C018/0008 | Below are eight individual molecules, each annotated with a property. Select all molecules that exhibit superior performance in their respective property. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['A', 'C', 'D', 'H'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0008_A_bd63b29ac63bb5e076c8b1703bbd4f2f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0008_B_87bcc58e4d7d51e01e8e8deb82e6f5c8.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0008_C_a7a412616d12db209b50a039db8febea.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0008_D_5ab27b14914f22c8587f8f1b50d0a23d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0008_E_507081375e6eb06a0c39a58e2f4ca02e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0008_F_b541979fe787a106ba25cc0e7db6aa3d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0008_G_37c8575f11f1d1777a6e1b8fda6111a2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0008_H_75a1d16c2d1ac7e004c54b4ced2fa7b6.png"
] | mcq | chemistry | en |
C018/0009 | Below are eight individual molecules, each annotated with a property. Select all molecules that exhibit superior performance in their respective property. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['A', 'B', 'C', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0009_A_8a78edf831352f4ed3f057be08b7f534.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0009_B_ebe1f6d74cbe822ee4ae980ea4ff74c5.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0009_C_98695d8822da2c81c35be22ce7b839cb.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0009_D_49dc84feb8c179fd85e75e3f61e71c7e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0009_E_2cc85a79360c297f62a4d1445c69ca48.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0009_F_74c00ec6fba67fb3f9e2ce4e93dd3543.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0009_G_5fcabfc463fda6b8e90c2996c308f2a5.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0009_H_c81ca8ca84afbe8450e7826205a908d6.png"
] | mcq | chemistry | en |
C018/0010 | Below are eight individual molecules, each annotated with a property. Select all molecules that exhibit superior performance in their respective property. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['B', 'D', 'G', 'H'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0010_A_0a6987c64abac70f75285ababbd61de0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0010_B_5d6429b9672f153d24cf9d3a8af32ba7.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0010_C_3d9f6c9efafce226e26d444330a6c712.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0010_D_eb31997a3c1f319b0de99216784d19d3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0010_E_7f29b40e0d45fe76319c58c4e493f0fb.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0010_F_458cdf2ebd2b267e4946ecb85adf4962.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0010_G_6d063a42de81fef8b71e80fd29e29bf2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0010_H_ac2ccded609e9b63f0e9255b21b04de9.png"
] | mcq | chemistry | en |
C018/0011 | Below are eight individual molecules, each annotated with a property. Select all molecules that exhibit superior performance in their respective property. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['A', 'C', 'D', 'H'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0011_A_4f8a85306d5e0f873cf577a65c492b03.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0011_B_02e65aa259031ded9ff6e4ff169fb3ce.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0011_C_b737a872cb12ad171b3aa001bfff64c5.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0011_D_40fee3e9bbe50e6c67fe4c8d40388926.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0011_E_f65ade4bc6e870c8f3e12ddf8865a2d7.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0011_F_2d65d6f7df75d591d9a8b7b31c9ad8b9.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0011_G_c815482564d716e27eb3b4b18823ccf2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0011_H_8afcbbe7c41a52ae6259356462bec2de.png"
] | mcq | chemistry | en |
C018/0012 | Below are eight individual molecules, each annotated with a property. Select all molecules that exhibit superior performance in their respective property. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['B', 'C', 'E', 'H'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0012_A_9284b0b8f1ed320595da6583dd0e74a2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0012_B_851a183f264d6e1c64038c07d0ac36a1.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0012_C_dbb9188a44c5878aa941959233eb91c7.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0012_D_880df89394da6ee19c2cd767df9b87dc.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0012_E_290e86b7706d931f2eacb9ea740701de.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0012_F_33da35106fa84798f244377e8b75612b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0012_G_e83f51ea394082b1373b9511ea5aba62.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0012_H_19360853f44755af44a86d4993fee96d.png"
] | mcq | chemistry | en |
C018/0013 | Below are eight individual molecules, each annotated with a property. Select all molecules that exhibit superior performance in their respective property. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['A', 'C', 'D', 'H'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0013_A_ac7cd221ad3bc2682ba11e7ce0315e47.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0013_B_ad717253ee6059c8332acb12417bbdad.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0013_C_e5b180c4c7a5b53fc4b51d1987917a06.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0013_D_114215a45f94d41873d658b240f885fe.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0013_E_2775432b1291be77fb35e6c9a5fac1a9.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0013_F_45b8113c5337767bbc5179f33986f109.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0013_G_5fdb00154f902c4155f5651e1f8a8a72.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0013_H_2fa9226c44b01d5771c03855e1c1c439.png"
] | mcq | chemistry | en |
C018/0014 | Below are eight individual molecules, each annotated with a property. Select all molecules that exhibit superior performance in their respective property. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['B', 'E', 'G', 'H'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0014_A_6837f7ab627cb04e2e7a06e7fd084101.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0014_B_a8a470ad4f0fe134a22f7ea33addc885.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0014_C_fdafbcbc5036b7cf82b2f7d20045eb8c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0014_D_aed5203bf56b70ca73fa9441c8f1d0c8.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0014_E_f0b1ea68203d24c131cb317621c5542f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0014_F_670c833e1b48fb863f56f1654778845a.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0014_G_ee346d1cfadffe48f479c357b4a77c12.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C018_0014_H_f5a0781c3426fd0882a659f7f1692b67.png"
] | mcq | chemistry | en |
C004/0000 | Generate a natural language description for the given molecule <image>. | [] | The molecule is a C-glycosyl compound that consists of chrysoeriol substituted by a 1,5-anhydro-D-glucitol moiety at position 6. It has a role as a metabolite. It is a trihydroxyflavone, a monomethoxyflavone, a monosaccharide derivative and a C-glycosyl compound. It derives from a 4',5,7-trihydroxy-3'-methoxyflavone. It is a conjugate acid of an isoscoparin-7-olate. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C004_0000_0ce825986a22a20f893ad96f87684c0c.png"
] | open_ended | chemistry | en |
C004/0001 | Generate a natural language description for the given molecule <image>. | [] | The molecule is a hydroxychrysene that is chrysene in which the hydrogen at position 2 has been replaced by a hydroxy group. It is a metabolite of the polycyclic aromatic hydrocarbon chrysene. It has a role as a xenobiotic metabolite and a xenoestrogen. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C004_0001_9431c54f5189db5d8dc0ce0555a067e8.png"
] | open_ended | chemistry | en |
C004/0002 | Generate a natural language description for the given molecule <image>. | [] | The molecule is a fatty acid ethyl ester of 3-hexenoic acid. It has a role as a metabolite. It derives from a 3-hexenoic acid. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C004_0002_f7fee7ff1f84160df28bf043be639f4e.png"
] | open_ended | chemistry | en |
C004/0003 | Generate a natural language description for the given molecule <image>. | [] | The molecule is a branched amino oligosaccharide that is a tridecasaccharide derivative consisting of a linear trisaccharide of beta-D-mannose and two N-acetyl-beta-D-glucosamine residues (one of which is at the reducing end) all linked in sequence (1->4), to the mannosyl residue of which are linked (1->3) and (1->6) two beta-D-galactosyl-(1->4)-N-acetyl-beta-D-glucosaminyl-(1->3)-beta-D-galactosyl-(1->4)-N-acetyl-beta-D-glucosaminyl-(1->2)-alpha-D-mannosyl linear pentasaccharide units. It is an amino oligosaccharide and a glucosamine oligosaccharide. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C004_0003_c3637ea2aea267c6e07507987a15e15f.png"
] | open_ended | chemistry | en |
C004/0004 | Generate a natural language description for the given molecule <image>. | [] | The molecule is a nitrile that is hydrogen cyanide in which the hydrogen has been replaced by a phenyl group. It is a member of benzenes and a nitrile. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C004_0004_a1bf14cfe936212bf7161edafdd3b9fa.png"
] | open_ended | chemistry | en |
C004/0005 | Generate a natural language description for the given molecule <image>. | [] | The molecule is a dipeptide composed of 3-{[(2E)-4-methoxy-4-oxobut-2-enoyl]amino}alanine and L-valine joined by peptide linkages. It has a role as a metabolite. It is a dipeptide, a dicarboxylic acid monoester and a methyl ester. It derives from a L-valine and a 3-aminoalanine. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C004_0005_a54d9ef44ebedf02f0b3c26a51d08fd6.png"
] | open_ended | chemistry | en |
C004/0006 | Generate a natural language description for the given molecule <image>. | [] | The molecule is an amino disaccharide composed of 3-sulfated beta-D-galactose and N-acetyl-beta-D-glucosaminyl residues in beta-(1->3) linkage. It has a role as an epitope. It is an amino disaccharide and an oligosaccharide sulfate. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C004_0006_414178de2be7aa6123dedea96c4b22e1.png"
] | open_ended | chemistry | en |
C004/0007 | Generate a natural language description for the given molecule <image>. | [] | The molecule is a member of the class of imidazolines that is 4,5-dihydro-1H-imidazole which is substituted by a 1H-indole-3-carbonyl group at position 2 and a 6-bromo-1H-indol-3-yl group at position 4S. It is a bisindole alkaloid isolated from the marine sponge, Spongosorites sp. It has a role as an antineoplastic agent and a marine metabolite. It is a bromoindole, a bisindole alkaloid, a member of imidazolines and an aromatic ketone. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C004_0007_1cca4c7b521e467afd473b4e7d877073.png"
] | open_ended | chemistry | en |
C004/0008 | Generate a natural language description for the given molecule <image>. | [] | The molecule is an alpha-amino-acid anion that is the conjugate base of 2,4-diaminopentanoic acid. It derives from a valerate. It is a conjugate base of a 2,4-diaminopentanoic acid. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C004_0008_7e228e1b8c5c94c5237eda14087e49d4.png"
] | open_ended | chemistry | en |
C004/0009 | Generate a natural language description for the given molecule <image>. | [] | The molecule is a branched amino tetrasaccharide comprising N-acetyl-beta-D-glucosamine at the reducing end with a N-acetyl-alpha-D-galactosaminyl-(1->3)-[alpha-L-fucosyl-(1->2)]-beta-D-galactosyl moiety attached at the 4-position. It has a role as an epitope. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C004_0009_142ea2753781ac03ca2badcd65d09074.png"
] | open_ended | chemistry | en |
C004/0010 | Generate a natural language description for the given molecule <image>. | [] | The molecule is an L-lysine derivative in which the alpha-amino nitrogen of the amino acid has entered into amide formation with acetic acid and the epsilon-amino nitrogen carries a 1,4-dihydroxynonan-3-yl substituent. It has been synthesised by reaction of (E)-4-hydroxynon-2-enal (HNE) with N(2)-acetyl-L-lysine, the epsilon amino group of lysine reacting with the double bond function of HNE via formation of a Michael adduct. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C004_0010_8327255f347eac0c31547e078d05853f.png"
] | open_ended | chemistry | en |
C004/0011 | Generate a natural language description for the given molecule <image>. | [] | The molecule is a 3-(omega-methylthio)alkylmalate(2-) obtained by deprotonation of both carboxy groups of 3-(3-methylthio)propylmalic acid; major species at pH 7.3. It is a conjugate base of a 3-(3-methylthio)propylmalic acid. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C004_0011_d20c64ada8a47888cdba33b3e5e921ba.png"
] | open_ended | chemistry | en |
C004/0012 | Generate a natural language description for the given molecule <image>. | [] | The molecule is a palmitate ester resulting from the formal condensation of the carboxy group of palmitic acid with the hydroxy group of octan-1-ol. It has a role as a bacterial metabolite. It is a hexadecanoate ester and a wax ester. It derives from an octan-1-ol. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C004_0012_d7159c80c88c65df9795f73d6b06c686.png"
] | open_ended | chemistry | en |
C004/0013 | Generate a natural language description for the given molecule <image>. | [] | The molecule is the hydrochloride salt of dorzolamide. It is used in ophthalmic solutions to lower increased intraocular pressure in the treatment of open-angle glaucoma and ocular hypertension. It has a role as an EC 4.2.1.1 (carbonic anhydrase) inhibitor, an antihypertensive agent and an antiglaucoma drug. It is a hydrochloride and an organoammonium salt. It contains a dorzolamide. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C004_0013_c076161ac82819a9b51165f60d627598.png"
] | open_ended | chemistry | en |
C004/0014 | Generate a natural language description for the given molecule <image>. | [] | The molecule is a cinnamate ester obtained by formal condensation of the carboxy group of trans-ferulic acid with one of the hydroxy groups of D-tartaric acid. It derives from a ferulic acid and a D-tartaric acid. It is an enantiomer of a (2R,3R)-trans-fertaric acid. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C004_0014_e52eb367256110066f63030aba332a82.png"
] | open_ended | chemistry | en |
C026/0001 | This is an exact-match question. Based on the molecular structure shown in <image>, please predict the following excretion-related properties for the molecule. For each property, provide a numerical value. The properties are as follows: Half-life, which is the half-life duration of the drug (unit: hours); and Clearance, which refers to the intrinsic clearance rate of the drug (unit: mL/min/kg). Please return your predictions in a JSON dictionary using exactly the following keys. Do not include units or additional descriptions in your output:
{
"half_life": ,
"clearance":
} | [] | {'half_life': 2.1, 'clearance': 9.77} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C026_Excretion_001_84f15de74a2e01710d1b2c2ca1ab2c40.png"
] | exact_match | chemistry | en |
C026/0002 | This is an exact-match question. Based on the molecular structure shown in <image>, please predict the following excretion-related properties for the molecule. For each property, provide a numerical value. The properties are as follows: Half-life, which is the half-life duration of the drug (unit: hours); and Clearance, which refers to the intrinsic clearance rate of the drug (unit: mL/min/kg). Please return your predictions in a JSON dictionary using exactly the following keys. Do not include units or additional descriptions in your output:
{
"half_life": ,
"clearance":
} | [] | {'half_life': 4.1, 'clearance': 150} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C026_Excretion_002_5ec79bb2af7e850f3deb6d4ddd0cb640.png"
] | exact_match | chemistry | en |
C026/0003 | This is an exact-match question. Based on the molecular structure shown in <image>, please predict the following excretion-related properties for the molecule. For each property, provide a numerical value. The properties are as follows: Half-life, which is the half-life duration of the drug (unit: hours); and Clearance, which refers to the intrinsic clearance rate of the drug (unit: mL/min/kg). Please return your predictions in a JSON dictionary using exactly the following keys. Do not include units or additional descriptions in your output:
{
"half_life": ,
"clearance":
} | [] | {'half_life': 2.5, 'clearance': 10.8} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C026_Excretion_003_31994e0da88c456736c706ec80397a02.png"
] | exact_match | chemistry | en |
C026/0004 | This is an exact-match question. Based on the molecular structure shown in <image>, please predict the following excretion-related properties for the molecule. For each property, provide a numerical value. The properties are as follows: Half-life, which is the half-life duration of the drug (unit: hours); and Clearance, which refers to the intrinsic clearance rate of the drug (unit: mL/min/kg). Please return your predictions in a JSON dictionary using exactly the following keys. Do not include units or additional descriptions in your output:
{
"half_life": ,
"clearance":
} | [] | {'half_life': 2.5, 'clearance': 3} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C026_Excretion_004_d442f8738b090af3c88946ee082113b1.png"
] | exact_match | chemistry | en |
C026/0005 | This is an exact-match question. Based on the molecular structure shown in <image>, please predict the following excretion-related properties for the molecule. For each property, provide a numerical value. The properties are as follows: Half-life, which is the half-life duration of the drug (unit: hours); and Clearance, which refers to the intrinsic clearance rate of the drug (unit: mL/min/kg). Please return your predictions in a JSON dictionary using exactly the following keys. Do not include units or additional descriptions in your output:
{
"half_life": ,
"clearance":
} | [] | {'half_life': 45, 'clearance': 3} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C026_Excretion_005_3cf3ab131fc018832e64fed6f3559e36.png"
] | exact_match | chemistry | en |
C026/0006 | This is an exact-match question. Based on the molecular structure shown in <image>, please predict the following excretion-related properties for the molecule. For each property, provide a numerical value. The properties are as follows: Half-life, which is the half-life duration of the drug (unit: hours); and Clearance, which refers to the intrinsic clearance rate of the drug (unit: mL/min/kg). Please return your predictions in a JSON dictionary using exactly the following keys. Do not include units or additional descriptions in your output:
{
"half_life": ,
"clearance":
} | [] | {'half_life': 4.9, 'clearance': 3} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C026_Excretion_006_d4c2fbb8b76672c5cd5377f6e32de38f.png"
] | exact_match | chemistry | en |
C026/0007 | This is an exact-match question. Based on the molecular structure shown in <image>, please predict the following excretion-related properties for the molecule. For each property, provide a numerical value. The properties are as follows: Half-life, which is the half-life duration of the drug (unit: hours); and Clearance, which refers to the intrinsic clearance rate of the drug (unit: mL/min/kg). Please return your predictions in a JSON dictionary using exactly the following keys. Do not include units or additional descriptions in your output:
{
"half_life": ,
"clearance":
} | [] | {'half_life': 1.7, 'clearance': 8} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C026_Excretion_007_e387fa479415b765d0dbdccd1d591718.png"
] | exact_match | chemistry | en |
C026/0008 | This is an exact-match question. Based on the molecular structure shown in <image>, please predict the following excretion-related properties for the molecule. For each property, provide a numerical value. The properties are as follows: Half-life, which is the half-life duration of the drug (unit: hours); and Clearance, which refers to the intrinsic clearance rate of the drug (unit: mL/min/kg). Please return your predictions in a JSON dictionary using exactly the following keys. Do not include units or additional descriptions in your output:
{
"half_life": ,
"clearance":
} | [] | {'half_life': 18, 'clearance': 150} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C026_Excretion_008_ea0e039a79ec07fa40e89b0fb8252cfd.png"
] | exact_match | chemistry | en |
C026/0009 | This is an exact-match question. Based on the molecular structure shown in <image>, please predict the following excretion-related properties for the molecule. For each property, provide a numerical value. The properties are as follows: Half-life, which is the half-life duration of the drug (unit: hours); and Clearance, which refers to the intrinsic clearance rate of the drug (unit: mL/min/kg). Please return your predictions in a JSON dictionary using exactly the following keys. Do not include units or additional descriptions in your output:
{
"half_life": ,
"clearance":
} | [] | {'half_life': 4.1, 'clearance': 4.79} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C026_Excretion_009_a450b197d9970422fb3e8bf43937829d.png"
] | exact_match | chemistry | en |
C026/0010 | This is an exact-match question. Based on the molecular structure shown in <image>, please predict the following excretion-related properties for the molecule. For each property, provide a numerical value. The properties are as follows: Half-life, which is the half-life duration of the drug (unit: hours); and Clearance, which refers to the intrinsic clearance rate of the drug (unit: mL/min/kg). Please return your predictions in a JSON dictionary using exactly the following keys. Do not include units or additional descriptions in your output:
{
"half_life": ,
"clearance":
} | [] | {'half_life': 10, 'clearance': 150} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C026_Excretion_010_d8282dfd470c1581aad54fb06879ae35.png"
] | exact_match | chemistry | en |
C026/0011 | This is an exact-match question. Based on the molecular structure shown in <image>, please predict the following excretion-related properties for the molecule. For each property, provide a numerical value. The properties are as follows: Half-life, which is the half-life duration of the drug (unit: hours); and Clearance, which refers to the intrinsic clearance rate of the drug (unit: mL/min/kg). Please return your predictions in a JSON dictionary using exactly the following keys. Do not include units or additional descriptions in your output:
{
"half_life": ,
"clearance":
} | [] | {'half_life': 8.3, 'clearance': 3.89} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C026_Excretion_011_5186ae471f882648326a65c681d99737.png"
] | exact_match | chemistry | en |
C026/0012 | This is an exact-match question. Based on the molecular structure shown in <image>, please predict the following excretion-related properties for the molecule. For each property, provide a numerical value. The properties are as follows: Half-life, which is the half-life duration of the drug (unit: hours); and Clearance, which refers to the intrinsic clearance rate of the drug (unit: mL/min/kg). Please return your predictions in a JSON dictionary using exactly the following keys. Do not include units or additional descriptions in your output:
{
"half_life": ,
"clearance":
} | [] | {'half_life': 1.1, 'clearance': 3} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C026_Excretion_012_769a98a73e58b2716f091d0827075897.png"
] | exact_match | chemistry | en |
C026/0013 | This is an exact-match question. Based on the molecular structure shown in <image>, please predict the following excretion-related properties for the molecule. For each property, provide a numerical value. The properties are as follows: Half-life, which is the half-life duration of the drug (unit: hours); and Clearance, which refers to the intrinsic clearance rate of the drug (unit: mL/min/kg). Please return your predictions in a JSON dictionary using exactly the following keys. Do not include units or additional descriptions in your output:
{
"half_life": ,
"clearance":
} | [] | {'half_life': 0.87, 'clearance': 29.51} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C026_Excretion_013_328040f1e2701498d09cb5f498efcb5d.png"
] | exact_match | chemistry | en |
C026/0014 | This is an exact-match question. Based on the molecular structure shown in <image>, please predict the following excretion-related properties for the molecule. For each property, provide a numerical value. The properties are as follows: Half-life, which is the half-life duration of the drug (unit: hours); and Clearance, which refers to the intrinsic clearance rate of the drug (unit: mL/min/kg). Please return your predictions in a JSON dictionary using exactly the following keys. Do not include units or additional descriptions in your output:
{
"half_life": ,
"clearance":
} | [] | {'half_life': 1.4, 'clearance': 87.1} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C026_Excretion_014_c32f19b7edb5eecc1d45de740b56a74c.png"
] | exact_match | chemistry | en |
C026/0015 | This is an exact-match question. Based on the molecular structure shown in <image>, please predict the following excretion-related properties for the molecule. For each property, provide a numerical value. The properties are as follows: Half-life, which is the half-life duration of the drug (unit: hours); and Clearance, which refers to the intrinsic clearance rate of the drug (unit: mL/min/kg). Please return your predictions in a JSON dictionary using exactly the following keys. Do not include units or additional descriptions in your output:
{
"half_life": ,
"clearance":
} | [] | {'half_life': 22, 'clearance': 6.92} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C026_Excretion_015_f23e0ae0b2eb040a2563ba7c930cf19b.png"
] | exact_match | chemistry | en |
C012/0000 | From the reactants structure <image>, identify the molecular formula of each reactant involved in the reaction, in left-to-right order. | [] | C6H9ClFN3, C13H13ClN6 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C012_0000_f40aa6a2d27c4e5e837014bf3b961dc1.png"
] | exact_match | chemistry | en |
C012/0001 | From the reactants structure <image>, identify the molecular formula of each reactant involved in the reaction, in left-to-right order. | [] | C6H5BrO, C10H20N2O2 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C012_0001_0d7dd023d6627a0861efa062154ccf71.png"
] | exact_match | chemistry | en |
C012/0002 | From the reactants structure <image>, identify the molecular formula of each reactant involved in the reaction, in left-to-right order. | [] | C6H14N2, C6H4BrI | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C012_0002_fb93084991e4bca1ca47d0846d220bb0.png"
] | exact_match | chemistry | en |
C012/0003 | From the reactants structure <image>, identify the molecular formula of each reactant involved in the reaction, in left-to-right order. | [] | C7H9N, C11H9ClN2 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C012_0003_fdbdda44ee31d44386701bdd6fc5873f.png"
] | exact_match | chemistry | en |
C012/0004 | From the reactants structure <image>, identify the molecular formula of each reactant involved in the reaction, in left-to-right order. | [] | C9H23NOSi, C13H10BrFO | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C012_0004_b555fbbaf3bbfb5888f97f086b240fed.png"
] | exact_match | chemistry | en |
C012/0005 | From the reactants structure <image>, identify the molecular formula of each reactant involved in the reaction, in left-to-right order. | [] | C6H5Br, C7H9NO | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C012_0005_a3ac08f23b3d72cf61bdb1a9af7c1849.png"
] | exact_match | chemistry | en |
C012/0006 | From the reactants structure <image>, identify the molecular formula of each reactant involved in the reaction, in left-to-right order. | [] | C5H2Cl2IN, C8H10N2O | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C012_0006_8539e7bbc955d841815aa162cd0ddc65.png"
] | exact_match | chemistry | en |
C012/0007 | From the reactants structure <image>, identify the molecular formula of each reactant involved in the reaction, in left-to-right order. | [] | C8H9FN2O, C5H2Cl2IN | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C012_0007_418fd6dfd29cb8bfd7e61133e0192265.png"
] | exact_match | chemistry | en |
C012/0008 | From the reactants structure <image>, identify the molecular formula of each reactant involved in the reaction, in left-to-right order. | [] | C11H13N3O, C15H15ClN2O | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C012_0008_0fd5d84a2f1885acee057d96a2365c9c.png"
] | exact_match | chemistry | en |
C012/0009 | From the reactants structure <image>, identify the molecular formula of each reactant involved in the reaction, in left-to-right order. | [] | C4H7N3, C5H3Cl2N | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C012_0009_8f976515abd973ee9f51cec48c2d7431.png"
] | exact_match | chemistry | en |
C012/0010 | From the reactants structure <image>, identify the molecular formula of each reactant involved in the reaction, in left-to-right order. | [] | C11H10F3IN4, C9H12N2O2 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C012_0010_474815f2441696d1533e4ac56146d9ef.png"
] | exact_match | chemistry | en |
C012/0011 | From the reactants structure <image>, identify the molecular formula of each reactant involved in the reaction, in left-to-right order. | [] | C9H12N2O, C11H8ClN7 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C012_0011_963ccb845b14a99d74e834b2f799ed85.png"
] | exact_match | chemistry | en |
C012/0012 | From the reactants structure <image>, identify the molecular formula of each reactant involved in the reaction, in left-to-right order. | [] | C15H15ClN2O, C10H12N4O | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C012_0012_cd48648d0b5f84170597a8c97e97d9e1.png"
] | exact_match | chemistry | en |
C012/0013 | From the reactants structure <image>, identify the molecular formula of each reactant involved in the reaction, in left-to-right order. | [] | C11H7ClF2N2O, C8H11NO2S | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C012_0013_afb1167c9aaa5ca8f9b0ac2b7d40e569.png"
] | exact_match | chemistry | en |
C012/0014 | From the reactants structure <image>, identify the molecular formula of each reactant involved in the reaction, in left-to-right order. | [] | C10H20N2O2, C5H4BrN | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C012_0014_10e9803aab454e1c04a22a630bfd3230.png"
] | exact_match | chemistry | en |
C027/0001 | <image> Please analyze the toxicity of this molecule. Which of the following aspects might be affected? (Multiple selections possible) | [
"(A) Potential impact on cell proliferation, apoptosis, and cell cycle",
"(B) Potential induction of oxidative stress, impact on metabolism, or mitochondrial function",
"(C) Potential effect on enzyme activity, receptor activation, or inhibition",
"(D) Potential impact on gene expression, transcription factor activation, and other gene-level regulation",
"(E) Potential influence on immune responses, cytokine release, etc.",
"(F) Potential toxicity to specific organs (e.g., liver, heart, kidney)",
"(G) Potential impact on development or reproduction processes",
"(H) Potential carcinogenicity or environmental toxicity to aquatic life, plants, soil, etc.",
"(I) Other (please specify)"
] | ['A', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C027_TOXCAST_1_ddc8cc199c4d1e513aab27c6319935e5.png"
] | mcq | chemistry | en |
C027/0002 | <image> Please analyze the toxicity of this molecule. Which of the following aspects might be affected? (Multiple selections possible) | [
"(A) Potential impact on cell proliferation, apoptosis, and cell cycle",
"(B) Potential induction of oxidative stress, impact on metabolism, or mitochondrial function",
"(C) Potential effect on enzyme activity, receptor activation, or inhibition",
"(D) Potential impact on gene expression, transcription factor activation, and other gene-level regulation",
"(E) Potential influence on immune responses, cytokine release, etc.",
"(F) Potential toxicity to specific organs (e.g., liver, heart, kidney)",
"(G) Potential impact on development or reproduction processes",
"(H) Potential carcinogenicity or environmental toxicity to aquatic life, plants, soil, etc.",
"(I) Other (please specify)"
] | ['A', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C027_TOXCAST_2_6afe58d2d4c6d407f267ec3ecbcd5a49.png"
] | mcq | chemistry | en |
C027/0003 | <image> Please analyze the toxicity of this molecule. Which of the following aspects might be affected? (Multiple selections possible) | [
"(A) Potential impact on cell proliferation, apoptosis, and cell cycle",
"(B) Potential induction of oxidative stress, impact on metabolism, or mitochondrial function",
"(C) Potential effect on enzyme activity, receptor activation, or inhibition",
"(D) Potential impact on gene expression, transcription factor activation, and other gene-level regulation",
"(E) Potential influence on immune responses, cytokine release, etc.",
"(F) Potential toxicity to specific organs (e.g., liver, heart, kidney)",
"(G) Potential impact on development or reproduction processes",
"(H) Potential carcinogenicity or environmental toxicity to aquatic life, plants, soil, etc.",
"(I) Other (please specify)"
] | ['A', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C027_TOXCAST_3_1505701019412d6142dd249ceab738bd.png"
] | mcq | chemistry | en |
C027/0004 | <image> Please analyze the toxicity of this molecule. Which of the following aspects might be affected? (Multiple selections possible) | [
"(A) Potential impact on cell proliferation, apoptosis, and cell cycle",
"(B) Potential induction of oxidative stress, impact on metabolism, or mitochondrial function",
"(C) Potential effect on enzyme activity, receptor activation, or inhibition",
"(D) Potential impact on gene expression, transcription factor activation, and other gene-level regulation",
"(E) Potential influence on immune responses, cytokine release, etc.",
"(F) Potential toxicity to specific organs (e.g., liver, heart, kidney)",
"(G) Potential impact on development or reproduction processes",
"(H) Potential carcinogenicity or environmental toxicity to aquatic life, plants, soil, etc.",
"(I) Other (please specify)"
] | ['B', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C027_TOXCAST_4_ec71ec04561bf2fa4275a3228713fcc2.png"
] | mcq | chemistry | en |
C027/0005 | <image> Please analyze the toxicity of this molecule. Which of the following aspects might be affected? (Multiple selections possible) | [
"(A) Potential impact on cell proliferation, apoptosis, and cell cycle",
"(B) Potential induction of oxidative stress, impact on metabolism, or mitochondrial function",
"(C) Potential effect on enzyme activity, receptor activation, or inhibition",
"(D) Potential impact on gene expression, transcription factor activation, and other gene-level regulation",
"(E) Potential influence on immune responses, cytokine release, etc.",
"(F) Potential toxicity to specific organs (e.g., liver, heart, kidney)",
"(G) Potential impact on development or reproduction processes",
"(H) Potential carcinogenicity or environmental toxicity to aquatic life, plants, soil, etc.",
"(I) Other (please specify)"
] | ['B', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C027_TOXCAST_5_dc34532ba7e140084aec6775a238ad20.png"
] | mcq | chemistry | en |
C027/0006 | <image> Please analyze the toxicity of this molecule. Which of the following aspects might be affected? (Multiple selections possible) | [
"(A) Potential impact on cell proliferation, apoptosis, and cell cycle",
"(B) Potential induction of oxidative stress, impact on metabolism, or mitochondrial function",
"(C) Potential effect on enzyme activity, receptor activation, or inhibition",
"(D) Potential impact on gene expression, transcription factor activation, and other gene-level regulation",
"(E) Potential influence on immune responses, cytokine release, etc.",
"(F) Potential toxicity to specific organs (e.g., liver, heart, kidney)",
"(G) Potential impact on development or reproduction processes",
"(H) Potential carcinogenicity or environmental toxicity to aquatic life, plants, soil, etc.",
"(I) Other (please specify)"
] | ['B', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C027_TOXCAST_6_39e62c25d2d24de4633da207454c281a.png"
] | mcq | chemistry | en |
C027/0007 | <image> Please analyze the toxicity of this molecule. Which of the following aspects might be affected? (Multiple selections possible) | [
"(A) Potential impact on cell proliferation, apoptosis, and cell cycle",
"(B) Potential induction of oxidative stress, impact on metabolism, or mitochondrial function",
"(C) Potential effect on enzyme activity, receptor activation, or inhibition",
"(D) Potential impact on gene expression, transcription factor activation, and other gene-level regulation",
"(E) Potential influence on immune responses, cytokine release, etc.",
"(F) Potential toxicity to specific organs (e.g., liver, heart, kidney)",
"(G) Potential impact on development or reproduction processes",
"(H) Potential carcinogenicity or environmental toxicity to aquatic life, plants, soil, etc.",
"(I) Other (please specify)"
] | ['C', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C027_TOXCAST_7_20232bf14b56a8b178d2d2f4de21d345.png"
] | mcq | chemistry | en |
C027/0008 | <image> Please analyze the toxicity of this molecule. Which of the following aspects might be affected? (Multiple selections possible) | [
"(A) Potential impact on cell proliferation, apoptosis, and cell cycle",
"(B) Potential induction of oxidative stress, impact on metabolism, or mitochondrial function",
"(C) Potential effect on enzyme activity, receptor activation, or inhibition",
"(D) Potential impact on gene expression, transcription factor activation, and other gene-level regulation",
"(E) Potential influence on immune responses, cytokine release, etc.",
"(F) Potential toxicity to specific organs (e.g., liver, heart, kidney)",
"(G) Potential impact on development or reproduction processes",
"(H) Potential carcinogenicity or environmental toxicity to aquatic life, plants, soil, etc.",
"(I) Other (please specify)"
] | ['C', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C027_TOXCAST_8_5d757a97504b276f767f1f962a9faae1.png"
] | mcq | chemistry | en |
C027/0009 | <image> Please analyze the toxicity of this molecule. Which of the following aspects might be affected? (Multiple selections possible) | [
"(A) Potential impact on cell proliferation, apoptosis, and cell cycle",
"(B) Potential induction of oxidative stress, impact on metabolism, or mitochondrial function",
"(C) Potential effect on enzyme activity, receptor activation, or inhibition",
"(D) Potential impact on gene expression, transcription factor activation, and other gene-level regulation",
"(E) Potential influence on immune responses, cytokine release, etc.",
"(F) Potential toxicity to specific organs (e.g., liver, heart, kidney)",
"(G) Potential impact on development or reproduction processes",
"(H) Potential carcinogenicity or environmental toxicity to aquatic life, plants, soil, etc.",
"(I) Other (please specify)"
] | ['C', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C027_TOXCAST_9_c8fa89f749689f65b3dc5cc9280bd51a.png"
] | mcq | chemistry | en |
C027/0010 | <image> Please analyze the toxicity of this molecule. Which of the following aspects might be affected? (Multiple selections possible) | [
"(A) Potential impact on cell proliferation, apoptosis, and cell cycle",
"(B) Potential induction of oxidative stress, impact on metabolism, or mitochondrial function",
"(C) Potential effect on enzyme activity, receptor activation, or inhibition",
"(D) Potential impact on gene expression, transcription factor activation, and other gene-level regulation",
"(E) Potential influence on immune responses, cytokine release, etc.",
"(F) Potential toxicity to specific organs (e.g., liver, heart, kidney)",
"(G) Potential impact on development or reproduction processes",
"(H) Potential carcinogenicity or environmental toxicity to aquatic life, plants, soil, etc.",
"(I) Other (please specify)"
] | ['E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C027_TOXCAST_10_611355bb4abd7b7a7350587d16fd4288.png"
] | mcq | chemistry | en |
C027/0011 | <image> Please analyze the toxicity of this molecule. Which of the following aspects might be affected? (Multiple selections possible) | [
"(A) Potential impact on cell proliferation, apoptosis, and cell cycle",
"(B) Potential induction of oxidative stress, impact on metabolism, or mitochondrial function",
"(C) Potential effect on enzyme activity, receptor activation, or inhibition",
"(D) Potential impact on gene expression, transcription factor activation, and other gene-level regulation",
"(E) Potential influence on immune responses, cytokine release, etc.",
"(F) Potential toxicity to specific organs (e.g., liver, heart, kidney)",
"(G) Potential impact on development or reproduction processes",
"(H) Potential carcinogenicity or environmental toxicity to aquatic life, plants, soil, etc.",
"(I) Other (please specify)"
] | ['E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C027_TOXCAST_11_27c779a86131e3b0d16b42827e0e15ee.png"
] | mcq | chemistry | en |
C027/0012 | <image> Please analyze the toxicity of this molecule. Which of the following aspects might be affected? (Multiple selections possible) | [
"(A) Potential impact on cell proliferation, apoptosis, and cell cycle",
"(B) Potential induction of oxidative stress, impact on metabolism, or mitochondrial function",
"(C) Potential effect on enzyme activity, receptor activation, or inhibition",
"(D) Potential impact on gene expression, transcription factor activation, and other gene-level regulation",
"(E) Potential influence on immune responses, cytokine release, etc.",
"(F) Potential toxicity to specific organs (e.g., liver, heart, kidney)",
"(G) Potential impact on development or reproduction processes",
"(H) Potential carcinogenicity or environmental toxicity to aquatic life, plants, soil, etc.",
"(I) Other (please specify)"
] | ['E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C027_TOXCAST_12_f3032990dec7e2944415775f493c3b8c.png"
] | mcq | chemistry | en |
C027/0013 | <image> Please analyze the toxicity of this molecule. Which of the following aspects might be affected? (Multiple selections possible) | [
"(A) Potential impact on cell proliferation, apoptosis, and cell cycle",
"(B) Potential induction of oxidative stress, impact on metabolism, or mitochondrial function",
"(C) Potential effect on enzyme activity, receptor activation, or inhibition",
"(D) Potential impact on gene expression, transcription factor activation, and other gene-level regulation",
"(E) Potential influence on immune responses, cytokine release, etc.",
"(F) Potential toxicity to specific organs (e.g., liver, heart, kidney)",
"(G) Potential impact on development or reproduction processes",
"(H) Potential carcinogenicity or environmental toxicity to aquatic life, plants, soil, etc.",
"(I) Other (please specify)"
] | ['D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C027_TOXCAST_13_585297f3f6adf2487cc2aa058b994497.png"
] | mcq | chemistry | en |
C027/0014 | <image> Please analyze the toxicity of this molecule. Which of the following aspects might be affected? (Multiple selections possible) | [
"(A) Potential impact on cell proliferation, apoptosis, and cell cycle",
"(B) Potential induction of oxidative stress, impact on metabolism, or mitochondrial function",
"(C) Potential effect on enzyme activity, receptor activation, or inhibition",
"(D) Potential impact on gene expression, transcription factor activation, and other gene-level regulation",
"(E) Potential influence on immune responses, cytokine release, etc.",
"(F) Potential toxicity to specific organs (e.g., liver, heart, kidney)",
"(G) Potential impact on development or reproduction processes",
"(H) Potential carcinogenicity or environmental toxicity to aquatic life, plants, soil, etc.",
"(I) Other (please specify)"
] | ['D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C027_TOXCAST_14_412e1703bbb9877066755d1a47963464.png"
] | mcq | chemistry | en |
C027/0015 | <image> Please analyze the toxicity of this molecule. Which of the following aspects might be affected? (Multiple selections possible) | [
"(A) Potential impact on cell proliferation, apoptosis, and cell cycle",
"(B) Potential induction of oxidative stress, impact on metabolism, or mitochondrial function",
"(C) Potential effect on enzyme activity, receptor activation, or inhibition",
"(D) Potential impact on gene expression, transcription factor activation, and other gene-level regulation",
"(E) Potential influence on immune responses, cytokine release, etc.",
"(F) Potential toxicity to specific organs (e.g., liver, heart, kidney)",
"(G) Potential impact on development or reproduction processes",
"(H) Potential carcinogenicity or environmental toxicity to aquatic life, plants, soil, etc.",
"(I) Other (please specify)"
] | ['D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C027_TOXCAST_15_4e0f4e9db8dfc067f65c5f71fc0891c0.png"
] | mcq | chemistry | en |
C013/0000 | This is a multiple-choice question with one or more correct answers. Based on the reactant structures <image>, select all catalysts, solvents, or reagents required for the reaction. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['E', 'G', 'F', 'C'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0000_f0e91b6523be7615f33014ecb046538f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0000_A_7f5f3455081250b7c047819dee6fdd7b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0000_B_17172c8de219ac904e46d88df0b5903c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0000_C_735abe676bc0e25e811de2d991d637d2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0000_D_588f958d3d0b4fc8f59bec2d0c1f3698.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0000_E_ce2e817334821c4fa8e6b4a93ec1fab0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0000_F_b91610e35dbed5284350864917f26d2b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0000_G_8efde65942bf86f51f8265e4c0dd2924.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0000_H_a3815386f690a01878cde7f123b13148.png"
] | mcq | chemistry | en |
C013/0001 | This is a multiple-choice question with one or more correct answers. Based on the reactant structures <image>, select all catalysts, solvents, or reagents required for the reaction. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['F', 'B', 'A', 'G'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0001_1e3ee222d7f0537def342bb1c99468a3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0001_A_588f958d3d0b4fc8f59bec2d0c1f3698.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0001_B_f4bb3f2429a8c05174fbfcb2faf5b4e7.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0001_C_6a63e71a52218588f5c2465cd2f2230e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0001_D_358de7423bb31b0ad9add741838e0dfb.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0001_E_ac92272147e5e480b50a8227f0dd2d3b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0001_F_735abe676bc0e25e811de2d991d637d2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0001_G_8efde65942bf86f51f8265e4c0dd2924.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0001_H_ce2e817334821c4fa8e6b4a93ec1fab0.png"
] | mcq | chemistry | en |
C013/0002 | This is a multiple-choice question with one or more correct answers. Based on the reactant structures <image>, select all catalysts, solvents, or reagents required for the reaction. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['D', 'H', 'B', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0002_b7a0c1cc4889de5a76da279361fe33bd.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0002_A_afaf2a1864fa60f3ea11b2c181c12b9e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0002_B_ad4ad70d7b4a83f7e14c300cf9e3a5e5.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0002_C_e33484fe1c4df8f715036ef4f10c788c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0002_D_6f705755e73d18dbe6c54eb1a9adc750.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0002_E_8efde65942bf86f51f8265e4c0dd2924.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0002_F_eaa518d8772910533ccd1933ecf6ff63.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0002_G_1fc50110e49b4645d9a7b2476d87f434.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0002_H_735abe676bc0e25e811de2d991d637d2.png"
] | mcq | chemistry | en |
C013/0003 | This is a multiple-choice question with one or more correct answers. Based on the reactant structures <image>, select all catalysts, solvents, or reagents required for the reaction. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['B', 'C', 'D', 'G'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0003_0104628500ae5127cd9b21ace2fce795.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0003_A_3d423df5a6ac9bab73a21b83fdda71f2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0003_B_735abe676bc0e25e811de2d991d637d2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0003_C_b91610e35dbed5284350864917f26d2b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0003_D_0ff0490f1d840d417d2f4034c63578f8.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0003_E_358de7423bb31b0ad9add741838e0dfb.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0003_F_a16adc5f3547be9b5bccb128daeb8e6f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0003_G_f55fa9a155adc44907bf30f29dc26fac.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0003_H_eaa518d8772910533ccd1933ecf6ff63.png"
] | mcq | chemistry | en |
C013/0004 | This is a multiple-choice question with one or more correct answers. Based on the reactant structures <image>, select all catalysts, solvents, or reagents required for the reaction. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['A', 'H', 'E', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0004_f90c6ce80083e5e05cf05413b4759b19.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0004_A_ce2e817334821c4fa8e6b4a93ec1fab0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0004_B_afaf2a1864fa60f3ea11b2c181c12b9e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0004_C_a16adc5f3547be9b5bccb128daeb8e6f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0004_D_7692e03fbfcf6b8eb0a5fd3283dd9530.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0004_E_735abe676bc0e25e811de2d991d637d2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0004_F_b91610e35dbed5284350864917f26d2b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0004_G_143d2b8ecec9a9c9cabf01a4cdaba22d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0004_H_8efde65942bf86f51f8265e4c0dd2924.png"
] | mcq | chemistry | en |
C013/0005 | This is a multiple-choice question with one or more correct answers. Based on the reactant structures <image>, select all catalysts, solvents, or reagents required for the reaction. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['E', 'A', 'G', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0005_19763454c2785564f74165ca6c5701a9.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0005_A_8efde65942bf86f51f8265e4c0dd2924.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0005_B_686eda3b14a34757e815cc365f81a85b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0005_C_3bd1365ecef7eb68a26c180770ce6c36.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0005_D_7692e03fbfcf6b8eb0a5fd3283dd9530.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0005_E_0ff0490f1d840d417d2f4034c63578f8.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0005_F_f4bb3f2429a8c05174fbfcb2faf5b4e7.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0005_G_735abe676bc0e25e811de2d991d637d2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0005_H_6f705755e73d18dbe6c54eb1a9adc750.png"
] | mcq | chemistry | en |
C013/0006 | This is a multiple-choice question with one or more correct answers. Based on the reactant structures <image>, select all catalysts, solvents, or reagents required for the reaction. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>"
] | ['B', 'C', 'E', 'D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0006_60eca075babf37f31a05f46111890cd8.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0006_A_1313897dceb19247a33c9a295d917fe9.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0006_B_7f5f3455081250b7c047819dee6fdd7b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0006_C_e1af7160b0d07343dcdf464e9e8f737a.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0006_D_f55fa9a155adc44907bf30f29dc26fac.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0006_E_0ff0490f1d840d417d2f4034c63578f8.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0006_F_b91610e35dbed5284350864917f26d2b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0006_G_588f958d3d0b4fc8f59bec2d0c1f3698.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C013_0006_H_7402d7d840060f9d8a269122566c2333.png"
] | mcq | chemistry | en |
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