Bhavin Siritanaratkul
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SrNbO2N as a Water-Splitting Photoanode with a Wide Visible-Light Absorption Band
K Maeda, M Higashi, B Siritanaratkul, R Abe, K Domen
Journal of the American Chemical Society 133 (32), 12334-12337, 2011
Synthesis and photocatalytic activity of perovskite niobium oxynitrides with wide visible‐light absorption bands
B Siritanaratkul, K Maeda, T Hisatomi, K Domen
ChemSusChem 4 (1), 74-78, 2011
Transfer of photosynthetic NADP+/NADPH recycling activity to a porous metal oxide for highly specific, electrochemically-driven organic synthesis
B Siritanaratkul, CF Megarity, TG Roberts, TOM Samuels, M Winkler, ...
Chemical Science 8 (6), 4579-4586, 2017
The value of enzymes in solar fuels research–efficient electrocatalysts through evolution
RM Evans, B Siritanaratkul, CF Megarity, K Pandey, TF Esterle, S Badiani, ...
Chemical Society Reviews 48 (7), 2039-2052, 2019
Zero-gap bipolar membrane electrolyzer for carbon dioxide reduction using acid-tolerant molecular electrocatalysts
B Siritanaratkul, M Forster, F Greenwell, PK Sharma, EH Yu, AJ Cowan
Journal of the American Chemical Society 144 (17), 7551-7556, 2022
Electrocatalytic volleyball: rapid nanoconfined nicotinamide cycling for organic synthesis in electrode pores
CF Megarity, B Siritanaratkul, RS Heath, L Wan, G Morello, SR FitzPatrick, ...
Angewandte Chemie International Edition 58 (15), 4948-4952, 2019
Efficient Electrocatalytic CO2 Fixation by Nanoconfined Enzymes via a C3-to-C4 Reaction That Is Favored over H2 Production
G Morello, B Siritanaratkul, CF Megarity, FA Armstrong
ACS Catalysis 9 (12), 11255-11262, 2019
Electrified nanoconfined biocatalysis with rapid cofactor recycling
CF Megarity, B Siritanaratkul, B Cheng, G Morello, L Wan, AJ Sills, ...
ChemCatChem 11 (23), 5662-5670, 2019
A hydrogen fuel cell for rapid, enzyme-catalysed organic synthesis with continuous monitoring
L Wan, CF Megarity, B Siritanaratkul, FA Armstrong
Chemical Communications 54 (8), 972-975, 2018
Manganese Carbonyl Complexes as Selective Electrocatalysts for CO2 Reduction in Water and Organic Solvents
B Siritanaratkul, C Eagle, AJ Cowan
Accounts of Chemical Research 55 (7), 955-965, 2022
Enzyme-catalysed enantioselective oxidation of alcohols by air exploiting fast electrochemical nicotinamide cycling in electrode nanopores
L Wan, RS Heath, B Siritanaratkul, CF Megarity, AJ Sills, MP Thompson, ...
Green Chemistry 21 (18), 4958-4963, 2019
From protein film electrochemistry to nanoconfined enzyme cascades and the electrochemical leaf
FA Armstrong, B Cheng, RA Herold, CF Megarity, B Siritanaratkul
Chemical Reviews 123 (9), 5421-5458, 2022
Transient Potassium Peroxide Species in Highly Selective Oxidative Coupling of Methane over an Unmolten K2WO4/SiO2 Catalyst Revealed by In Situ†…
D Li, S Yoshida, B Siritanaratkul, AT Garcia-Esparza, D Sokaras, ...
ACS Catalysis 11 (22), 14237-14248, 2021
Electron flow between the worlds of Marcus and Warburg
CF Megarity, B Siritanaratkul, RA Herold, G Morello, FA Armstrong
The Journal of chemical physics 153 (22), 2020
Selective, light-driven enzymatic dehalogenations of organic compounds
B Siritanaratkul, STA Islam, T Schubert, C Kunze, T Goris, G Diekert, ...
RSC advances 6 (88), 84882-84886, 2016
Oxidative-coupling-assisted methane aromatization: A simulation study
D Li, WS Baslyman, B Siritanaratkul, T Shinagawa, SM Sarathy, ...
Industrial & Engineering Chemistry Research 58 (51), 22884-22892, 2019
Improving the Stability, Selectivity, and Cell Voltage of a Bipolar Membrane Zero‐Gap Electrolyzer for Low‐Loss CO2 Reduction
B Siritanaratkul, PK Sharma, EH Yu, AJ Cowan
Advanced Materials Interfaces 10 (15), 2300203, 2023
Enzymes as exploratory catalysts in artificial photosynthesis
A Bachmeier, B Siritanaratkul, FA Armstrong
From Molecules to Materials: Pathways to Artificial Photosynthesis, 99-123, 2015
Pulsed electrolysis with a nickel molecular catalyst improves selectivity for carbon dioxide reduction
F Greenwell, B Siritanaratkul, PK Sharma, EH Yu, AJ Cowan
Journal of the American Chemical Society 145 (28), 15078-15083, 2023
Generalizability and limitations of machine learning for yield prediction of oxidative coupling of methane
B Siritanaratkul
Digital Chemical Engineering 2, 100013, 2022
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