J. Patel, G. Bury, R. Ezhov, and Y. Pushkar, “Demonstration of the radical coupling pathway in a fast Fe-based water oxidation catalyst,” Chem. Catalysis, 2024, Under Review.
J. Patel, G. Bury, and Y. Pushkar, “Rational design of improved Metal-Organic Framework (MOF)-based photoanode for artificial photosynthesis,” Small, 2024, 2310106.
N. P. Dileep, J. Patel, and Y. Pushkar, “Evaluation of Ce-MOFs as photoanode materials for water oxidation reaction, effect of doping with [Ru(bpy)(dcbpy)(H2O)2]2+ catalyst,” Inorg. Chem., 2024, 63 (18), 8050-8058.
D. C. Lacy, D. E. Heppner, B. Buckley*, J. Griffiths*, P. S Gunasekera*, J. Patel*, Z. Roche-Rivera, K. Coppola, K. Dempsey, S. C Pillai, B. R Renzoni, “Twelve CO molecules for the price of one. A simple water-soluble organometallic CORM, [Mn(CO)3(µ3-OH)]” Polyhedron, 2024. (* Equal contribution)
J. Patel, G. Bury, A. K. Ravari, R. Ezhov and Y. Pushkar, "Systematic influence of electronic modification of ligand on the catalytic rate of water oxidation by a single-site Ru-based catalyst," ChemSusChem., 2022, 15, e202101657.
J. Patel, X. Yuan, S. M. Marinho, W. Leibl, H. Remita and Ally Aukauloo, “Visible Light-Driven Simultaneous Water Oxidation and Quinone Reduction by Nano-Structured Conjugated Polymer Without Co-catalysts,” Chem. Sci., 2020, 11, 7324-7328.
J. Patel, K. Majee, E. Ahmad, B. Das, and S. K. Padhi, “Effect of Pyridyl substitution on Chemical and Photochemical Water Oxidation by [Ru(tpy)(bpy)(OH2)]2+ Scaffolds,” Eur. J. Inorg. Chem., 2017, 160-171.
J. Patel, K. Majee, E. Ahmad, K. Tanaka, and S. K. Padhi, “[RuV(NCN-Me)(bpy)(=O)]3+Mediates Efficient C-H bond Oxidation from NADH Analogs in Aqueous Media rather than Water Oxidation,” Dalton Trans., 2015, 44 (3), 920 - 923.
J. Patel, K. Majee, and S. K. Padhi, “[RuV(NCN-Me)(bpy)(=O)]3+Mediated Efficient Photo-driven Water Oxidation,” RSC Advances, 2016, 6, 61959–61965.
J. Patel, K. Majee, E. Ahmad, A. Vatsa, B. Das, and S. K. Padhi, “Electronic Effect on Catalytic Water Oxidation by Single Site [Ru(QCl-tpy)(bpy)(OH2)]2+ Catalyst,”ChemistrySelect., 2017, 2, 123-129.
J. Patel, K. Majee, M. Raj, A. Vatsa, S. Rai, and S. K. Padhi, “Effect of Quinoline substitution on Water Oxidation by [Ru(Ql-tpy)(bpy)(OH2)](PF6)2,”ChemistrySelect., 2017, 2, 3053-3059.
K. Majee, J. Patel, S. Rai, B. Das, B. Panda, and S. K. Padhi, “Proton Reduction by a Nickel Complex with Internal Quinoline Moiety for Proton Relay,” Phys. Chem. Chem. Phys., 2016, 18, 21640 - 21650.
E. Ahmad, K. Majee, J. Patel, M. Raj, B. Das, and S. K. Padhi, “Competent Electro- and Photo-catalytic Proton Reduction by a [Co(Tpy)2]2+ Scaffold,” Eur. J. Inorg. Chem., 2017, 2, 123 – 129.
K. Majee, J. Patel, B. Das, and S. K. Padhi, “µ-Pyridine bridged Copper Complex with Robust Proton Reducing Ability,” Dalton Trans., 2017, 46, 14869-14879.
S. Rai, K. Majee, M. Raj, A. Pahari, J. Patel, and S. K. Padhi, “Electrocatalytic proton and water reduction by a Co(III) polypyridyl complex,” Polyhedron., 2018, 159, 127-134.
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