| Recent progress for reversible homogeneous catalytic hydrogen storage in formic acid and in methanol N Onishi, G Laurenczy, M Beller, Y Himeda Coordination Chemistry Reviews 373, 317-332, 2018 | 224 | 2018 |
| Highly robust hydrogen generation by bioinspired Ir complexes for dehydrogenation of formic acid in water: experimental and theoretical mechanistic investigations at different pH WH Wang, MZ Ertem, S Xu, N Onishi, Y Manaka, Y Suna, H Kambayashi, ... Acs Catalysis 5 (9), 5496-5504, 2015 | 165 | 2015 |
| Development of effective catalysts for hydrogen storage technology using formic acid N Onishi, M Iguchi, X Yang, R Kanega, H Kawanami, Q Xu, Y Himeda Advanced Energy Materials 9 (23), 1801275, 2019 | 147 | 2019 |
| CO2 Hydrogenation Catalyzed by Iridium Complexes with a Proton-Responsive Ligand N Onishi, S Xu, Y Manaka, Y Suna, WH Wang, JT Muckerman, E Fujita, ... Inorganic Chemistry 54 (11), 5114-5123, 2015 | 120 | 2015 |
| Direction to practical production of hydrogen by formic acid dehydrogenation with Cp* Ir complexes bearing imidazoline ligands N Onishi, MZ Ertem, S Xu, A Tsurusaki, Y Manaka, JT Muckerman, ... Catalysis Science & Technology 6 (4), 988-992, 2016 | 87 | 2016 |
| CO2 Hydrogenation and Formic Acid Dehydrogenation Using Ir Catalysts with Amide-Based Ligands R Kanega, MZ Ertem, N Onishi, DJ Szalda, E Fujita, Y Himeda Organometallics 39 (9), 1519-1531, 2020 | 85 | 2020 |
| Heterogeneous catalysis for carbon dioxide mediated hydrogen storage technology based on formic acid M Liu, Y Xu, Y Meng, L Wang, H Wang, Y Huang, N Onishi, L Wang, Z Fan, ... Advanced Energy Materials 12 (31), 2200817, 2022 | 83 | 2022 |
| Investigation of Hydrogenation of Formic Acid to Methanol using H2 or Formic Acid as a Hydrogen Source A Tsurusaki, K Murata, N Onishi, K Sordakis, G Laurenczy, Y Himeda ACS Catalysis 7 (2), 1123-1131, 2017 | 75 | 2017 |
| Carbon Dioxide Hydrogenation and Formic Acid Dehydrogenation Catalyzed by Iridium Complexes Bearing Pyridyl‐pyrazole Ligands: Effect of an Electron‐donating Substituent on the … N Onishi, R Kanega, E Fujita, Y Himeda Advanced Synthesis & Catalysis 361 (2), 289-296, 2019 | 72 | 2019 |
| CO2 Hydrogenation Catalysts with Deprotonated Picolinamide Ligands R Kanega, N Onishi, DJ Szalda, MZ Ertem, JT Muckerman, E Fujita, ... ACS Catalysis 7 (10), 6426-6429, 2017 | 72 | 2017 |
| Efficient Hydrogen Storage and Production Using a Catalyst with an Imidazoline‐Based, Proton‐Responsive Ligand L Wang, N Onishi, K Murata, T Hirose, JT Muckerman, E Fujita, Y Himeda ChemSusChem 10 (6), 1071-1075, 2017 | 70 | 2017 |
| Asymmetric Polymerization of Achiral Arylacetylenes Giving Helical Polyacetylenes in the Presence of a Rhodium Catalyst with a C2-Symmetric … T Nishimura, Y Ichikawa, T Hayashi, N Onishi, M Shiotsuki, T Masuda Organometallics 28 (16), 4890-4893, 2009 | 65 | 2009 |
| Recent progress in homogeneous catalytic dehydrogenation of formic acid N Onishi, R Kanega, H Kawanami, Y Himeda Molecules 27 (2), 455, 2022 | 62 | 2022 |
| Catalytic Hydrogenation of CO2 to Methanol Using Multinuclear Iridium Complexes in a Gas–Solid Phase Reaction R Kanega, N Onishi, S Tanaka, H Kishimoto, Y Himeda Journal of the American Chemical Society 143 (3), 1570-1576, 2021 | 58 | 2021 |
| Polymerization of phenylacetylenes using rhodium catalysts coordinated by norbornadiene linked to a phosphino or amino group N Onishi, M Shiotsuki, T Masuda, N Sano, F Sanda Organometallics 32 (3), 846-853, 2013 | 48 | 2013 |
| Homogeneous catalysts for CO2 hydrogenation to methanol and methanol dehydrogenation to hydrogen generation N Onishi, Y Himeda Coordination Chemistry Reviews 472, 214767, 2022 | 47 | 2022 |
| Polymerization of phenylacetylenes with rhodium zwitterionic complexes: Enhanced catalytic activity by π-acidic diene ligands N Onishi, M Shiotsuki, F Sanda, T Masuda Macromolecules 42 (12), 4071-4076, 2009 | 46 | 2009 |
| Characterization of the Polymerization Catalyst [(2,5-norbornadiene)Rh{C(Ph)CPh2}(PPh3)] and Identification of the End Structures of Poly(phenylacetylenes … S Kumazawa, J Rodriguez Castanon, N Onishi, K Kuwata, M Shiotsuki, ... Organometallics 31 (19), 6834-6842, 2012 | 44 | 2012 |
| Picolinamide‐Based Iridium Catalysts for Dehydrogenation of Formic Acid in Water: Effect of Amide N Substituent on Activity and Stability R Kanega, N Onishi, L Wang, K Murata, JT Muckerman, E Fujita, ... Chemistry–A European Journal 24 (69), 18389-18392, 2018 | 43 | 2018 |
| Electroreduction of carbon dioxide to formate by homogeneous Ir catalysts in water R Kanega, N Onishi, L Wang, Y Himeda ACS Catalysis 8 (12), 11296-11301, 2018 | 43 | 2018 |
