Does the breaking of adsorption-energy scaling relations guarantee enhanced electrocatalysis? N Govindarajan, JM García-Lastra, EJ Meijer, F Calle-Vallejo Current Opinion in Electrochemistry 8, 110-117, 2018 | 127 | 2018 |
Outlining the scaling-based and scaling-free optimization of electrocatalysts N Govindarajan, MTM Koper, EJ Meijer, F Calle-Vallejo ACS Catalysis 9 (5), 4218-4225, 2019 | 80 | 2019 |
Using pH dependence to understand mechanisms in electrochemical CO reduction G Kastlunger, L Wang, N Govindarajan, HH Heenen, S Ringe, T Jaramillo, ... ACS Catalysis 12 (8), 4344-4357, 2022 | 78 | 2022 |
How pH affects electrochemical processes N Govindarajan, A Xu, K Chan Science 375 (6579), 379-380, 2022 | 78 | 2022 |
Theories for Electrolyte Effects in CO2 Electroreduction A Xu, N Govindarajan, G Kastlunger, S Vijay, K Chan Accounts of Chemical Research 55 (4), 495-503, 2022 | 66 | 2022 |
Improving the intrinsic activity of electrocatalysts for sustainable energy conversion: where are we and where can we go? N Govindarajan, G Kastlunger, HH Heenen, K Chan Chemical Science 13 (1), 14-26, 2022 | 63 | 2022 |
How Solvent Affects C-H Activation and Hydrogen Production Pathways in Homogeneous Ru-Catalyzed Methanol Dehydrogenation Reactions V Sinha#, N Govindarajan#,*, B de Bruin, EJ Meijer ACS Catalysis 8 (8), 6908-6913, 2018 | 57 | 2018 |
Impact of the ligand flexibility and solvent on the O–O bond formation step in a highly active ruthenium water oxidation catalyst N Govindarajan, A Tiwari, B Ensing, EJ Meijer Inorganic chemistry 57 (21), 13063-13066, 2018 | 51 | 2018 |
An in-depth mechanistic study of Ru-catalysed aqueous methanol dehydrogenation and prospects for future catalyst design N Govindarajan, V Sinha, M Trincado, H Grützmacher, EJ Meijer, ... ChemCatChem 12 (9), 2610-2621, 2020 | 38 | 2020 |
Understanding activity trends in furfural hydrogenation on transition metal surfaces S Liu, N Govindarajan*, K Chan ACS Catalysis 12, 12902-12910, 2022 | 28 | 2022 |
Combining first-principles kinetics and experimental data to establish guidelines for product selectivity in electrochemical CO (2) reduction G Kastlunger, H Heenen, N Govindarajan ACS Catalysis 13 (7), 5062-5072, 2023 | 21 | 2023 |
Selective surface functionalization generating site-isolated Ir on a MnO x/N-doped carbon composite for robust electrocatalytic water oxidation N Yan, RJ Detz, N Govindarajan, JM Koelewijn, B Hua, P Li, EJ Meijer, ... Journal of Materials Chemistry A 7 (40), 23098-23104, 2019 | 21 | 2019 |
Understanding the reaction mechanism of Kolbe electrolysis on Pt anodes S Liu#, N Govindarajan#, H Prats, K Chan Chem Catalysis 2 (5), 1100-1113, 2022 | 18 | 2022 |
OH binding energy as a universal descriptor of the potential of zero charge on transition metal surfaces SR Kelly#, HH Heenen#, N Govindarajan#, K Chan, JK Nørskov The Journal of Physical Chemistry C 126 (12), 5521-5528, 2022 | 16 | 2022 |
Elucidating cation effects in homogeneously catalyzed formic acid dehydrogenation N Govindarajan, EJ Meijer Faraday discussions 220, 404-413, 2019 | 12 | 2019 |
Modeling the Catalyst Activation Step in a Metal–Ligand Radical Mechanism Based Water Oxidation System N Govindarajan, EJ Meijer Inorganics 7 (5), 62, 2019 | 11 | 2019 |
Variability of Ligand pKa during Homogeneously Catalyzed Aqueous Methanol Dehydrogenation N Govindarajan, H Beks, EJ Meijer ACS Catalysis 10 (24), 14775-14781, 2020 | 10 | 2020 |
Effect of different monomer precursors with identical functionality on the properties of the polymer network A Torres-Knoop, V Schamboeck, N Govindarajan, PD Iedema, I Kryven Communications Materials 2 (1), 50, 2021 | 8 | 2021 |
Unraveling the reaction mechanisms for furfural electroreduction on copper S Liu, Z Mukadam, SB Scott, S Sarma, MM Titirici, K Chan, ... EES Catalysis 1, 539-551, 2023 | 7 | 2023 |
Unraveling the rate-determining step of C2+ products during electrochemical CO reduction W Deng, P Zhang, Y Qiao, G Kastlunger, N Govindarajan, A Xu, ... Nature Communications 15 (1), 892, 2024 | 4 | 2024 |