Name: Recyclable Solid Catalyst for Deoxydehydration Date: 2015-12-22 18:08:00 UTC
Description: files for publication including article proof, suplementary data, athena files and origin files
DOI:
Location: https://rcahdrive.rc-harwell.ac.uk/index.php/s/mr7vqRCWcphIFUC?path=%2Facscatal.5b01936
Article: ReOx/TiO2: A Recyclable Solid Catalyst for Deoxydehydration
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Name: Molybdenum Species Evolution during Non‐Oxidative Dehydroaromatization Date: 2018-09-18 11:53:00 UTC
Description: zip file containing data supporting publication
DOI:
Location: https://rcahdrive.rc-harwell.ac.uk/index.php/s/mr7vqRCWcphIFUC?path=%2Fcctc201801299
Article: Determination of Molybdenum Species Evolution during Non‐Oxidative Dehydroaromatization of Methane and its Implications for Catalytic Performance
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Name: mmc1.pdf Date: 2020-10-01 00:00:00 UTC
Description: Supplementary data for Improving Photocatalytic Energy Conversion via NAD(P)H
DOI:
Location: https://www.cell.com/cms/10.1016/j.joule.2020.07.024/attachment/784c5b63-f667-4b70-a216-330aa6d0ae59/mmc1.pdf
Article: Improving Photocatalytic Energy Conversion via NAD(P)H
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Name: Supplemental Information 1: Molecular xyz coordinates Date: 2020-05-20 00:00:00 UTC
Description: Related Article: Sirirak, Jitnapa, Lawan, Narin, Van der Kamp, Marc W., Harvey, Jeremy N., Mulho...
DOI: 10.7717/peerj-pchem.8/supp-1
Location: http://dx.doi.org/10.7717/peerj-pchem.8/supp-1
Article: Benchmarking quantum mechanical methods for calculating reaction energies of reactions catalyzed by enzymes
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Name: Table S1: Coordinates of 29 molecules optimized at the B3LYP/6-311+G(d) level Date: 2020-05-20 00:00:00 UTC
Description: Related Article: Sirirak, Jitnapa, Lawan, Narin, Van der Kamp, Marc W., Harvey, Jeremy N., Mulho...
DOI: 10.7717/peerj-pchem.8/supp-2
Location: http://dx.doi.org/10.7717/peerj-pchem.8/supp-2
Article: Benchmarking quantum mechanical methods for calculating reaction energies of reactions catalyzed by enzymes
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Name: Table S2: Molecular energies of molecular No.1 (M1) to molecular No.29 (M29) (in kcal mol−1) calculated by 24 QM methods using the structure optimized at the B3LYP/6-311+G(d) level as starting structures Date: 2020-05-20 00:00:00 UTC
Description: Related Article: Sirirak, Jitnapa, Lawan, Narin, Van der Kamp, Marc W., Harvey, Jeremy N., Mulho...
DOI: 10.7717/peerj-pchem.8/supp-3
Location: http://dx.doi.org/10.7717/peerj-pchem.8/supp-3
Article: Benchmarking quantum mechanical methods for calculating reaction energies of reactions catalyzed by enzymes
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Name: Table S3: Reaction energies (in kcal mol−1) of reaction 1–20 calculated by 24 quantum mechanics methods Date: 2020-05-20 00:00:00 UTC
Description: Related Article: Sirirak, Jitnapa, Lawan, Narin, Van der Kamp, Marc W., Harvey, Jeremy N., Mulho...
DOI: 10.7717/peerj-pchem.8/supp-4
Location: http://dx.doi.org/10.7717/peerj-pchem.8/supp-4
Article: Benchmarking quantum mechanical methods for calculating reaction energies of reactions catalyzed by enzymes
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Name: Table S4: Errors of reaction energies (in kcal mol−1) of reaction 1–20, relative to the CCSD(T)/aug-cc-pVTZ results Date: 2020-05-20 00:00:00 UTC
Description: Related Article: Sirirak, Jitnapa, Lawan, Narin, Van der Kamp, Marc W., Harvey, Jeremy N., Mulho...
DOI: 10.7717/peerj-pchem.8/supp-5
Location: http://dx.doi.org/10.7717/peerj-pchem.8/supp-5
Article: Benchmarking quantum mechanical methods for calculating reaction energies of reactions catalyzed by enzymes
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Name: Table S5: Mean signed errors, standard deviations, maximum errors and minimum errors along with their reaction number (Rxn No.) of reaction energies (in kcal mol<sup>−1</sup>) of reaction 1–20 Date: 2020-05-20 00:00:00 UTC
Description: Related Article: Sirirak, Jitnapa, Lawan, Narin, Van der Kamp, Marc W., Harvey, Jeremy N., Mulho...
DOI: 10.7717/peerj-pchem.8/supp-6
Location: http://dx.doi.org/10.7717/peerj-pchem.8/supp-6
Article: Benchmarking quantum mechanical methods for calculating reaction energies of reactions catalyzed by enzymes
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Name: Table S6: Absolute errors, mean absolute errors and standard deviations of reaction energies (in kcal mol−1) of reaction 1–20. The absolute errors are given relative to the CCSD(T)/aug-cc-pVTZ results Date: 2020-05-20 00:00:00 UTC
Description: Related Article: Sirirak, Jitnapa, Lawan, Narin, Van der Kamp, Marc W., Harvey, Jeremy N., Mulho...
DOI: 10.7717/peerj-pchem.8/supp-7
Location: http://dx.doi.org/10.7717/peerj-pchem.8/supp-7
Article: Benchmarking quantum mechanical methods for calculating reaction energies of reactions catalyzed by enzymes
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