| Visible‐light‐driven CO2 reduction with carbon nitride: enhancing the activity of ruthenium catalysts R Kuriki, K Sekizawa, O Ishitani, K Maeda Angewandte Chemie International Edition 54 (8), 2406-2409, 2015 | 621 | 2015 |
| Artificial Z-Scheme Constructed with a Supramolecular Metal Complex and Semiconductor for the Photocatalytic Reduction of CO2 K Sekizawa, K Maeda, K Domen, K Koike, O Ishitani Journal of the American Chemical Society 135 (12), 4596-4599, 2013 | 478 | 2013 |
| A polymeric-semiconductor–metal-complex hybrid photocatalyst for visible-light CO 2 reduction K Maeda, K Sekizawa, O Ishitani Chemical Communications 49 (86), 10127-10129, 2013 | 286 | 2013 |
| Selective Formic Acid Production via CO2 Reduction with Visible Light Using a Hybrid of a Perovskite Tantalum Oxynitride and a Binuclear Ruthenium(II) Complex F Yoshitomi, K Sekizawa, K Maeda, O Ishitani ACS applied materials & interfaces 7 (23), 13092-13097, 2015 | 148 | 2015 |
| Photocatalytic CO2 Reduction Using a Robust Multifunctional Iridium Complex toward the Selective Formation of Formic Acid K Kamada, J Jung, T Wakabayashi, K Sekizawa, S Sato, T Morikawa, ... Journal of the American Chemical Society 142 (23), 10261-10266, 2020 | 141 | 2020 |
| Photocatalytic Reduction of CO2: From Molecules to Semiconductors T Yui, Y Tamaki, K Sekizawa, O Ishitani Photocatalysis, 151-184, 2011 | 137 | 2011 |
| Solar-Driven Photocatalytic CO2 Reduction in Water Utilizing a Ruthenium Complex Catalyst on p-Type Fe2O3 with a Multiheterojunction K Sekizawa, S Sato, T Arai, T Morikawa ACS Catalysis 8 (2), 1405-1416, 2018 | 136 | 2018 |
| Visible-light-driven CO 2 reduction on a hybrid photocatalyst consisting of a Ru (II) binuclear complex and a Ag-loaded TaON in aqueous solutions A Nakada, T Nakashima, K Sekizawa, K Maeda, O Ishitani Chemical Science 7 (7), 4364-4371, 2016 | 105 | 2016 |
| Low-Energy Electrocatalytic CO2 Reduction in Water over Mn-Complex Catalyst Electrode Aided by a Nanocarbon Support and K+ Cations S Sato, K Saita, K Sekizawa, S Maeda, T Morikawa ACS Catalysis 8 (5), 4452-4458, 2018 | 97 | 2018 |
| Solar-Driven CO2 Reduction Using a Semiconductor/Molecule Hybrid Photosystem: From Photocatalysts to a Monolithic Artificial Leaf T Morikawa, S Sato, K Sekizawa, TM Suzuki, T Arai Accounts of Chemical Research 55 (7), 933-943, 2021 | 87 | 2021 |
| Structural Improvement of CaFe2O4 by Metal Doping toward Enhanced Cathodic Photocurrent K Sekizawa, T Nonaka, T Arai, T Morikawa ACS Applied materials & interfaces 6 (14), 10969-10973, 2014 | 81 | 2014 |
| Effects of Interfacial Electron Transfer in Metal Complex–Semiconductor Hybrid Photocatalysts on Z-Scheme CO2 Reduction under Visible Light A Nakada, R Kuriki, K Sekizawa, S Nishioka, JJM Vequizo, T Uchiyama, ... ACS Catalysis 8 (10), 9744-9754, 2018 | 70 | 2018 |
| Self-assembled Cuprous Coordination Polymer as a Catalyst for CO2 Electrochemical Reduction into C2 Products N Sakamoto, YF Nishimura, T Nonaka, M Ohashi, N Ishida, K Kitazumi, ... ACS Catalysis 10 (18), 10412-10419, 2020 | 58 | 2020 |
| Photoelectrochemical hydrogen production by water splitting over dual-functionally modified oxide: p-Type N-doped Ta2O5 photocathode active under visible light irradiation TM Suzuki, S Saeki, K Sekizawa, K Kitazumi, N Takahashi, T Morikawa Applied Catalysis B: Environmental 202, 597-604, 2017 | 55 | 2017 |
| Solar-driven CO 2 to CO reduction utilizing H 2 O as an electron donor by earth-abundant Mn–bipyridine complex and Ni-modified Fe-oxyhydroxide catalysts activated in a single … T Arai, S Sato, K Sekizawa, TM Suzuki, T Morikawa Chemical Communications 55 (2), 237-240, 2019 | 45 | 2019 |
| Stoichiometric water splitting using a p-type Fe 2 O 3 based photocathode with the aid of a multi-heterojunction K Sekizawa, K Oh-ishi, K Kataoka, T Arai, TM Suzuki, T Morikawa Journal of Materials Chemistry A 5 (14), 6483-6493, 2017 | 42 | 2017 |
| Temperature-dependent emission of copper (I) phenanthroline complexes with bulky substituents: estimation of an energy gap between the singlet and triplet MLCT states MS Asano, K Tomiduka, K Sekizawa, K Yamashita, K Sugiura Chemistry Letters 39 (4), 376-378, 2010 | 38 | 2010 |
| Photoelectrochemical water-splitting over a surface modified p-type Cr 2 O 3 photocathode K Sekizawa, K Oh-Ishi, T Morikawa Dalton Transactions 49 (3), 659-666, 2020 | 37 | 2020 |
| Molecular Catalysts Immobilized on Semiconductor Photosensitizers for Proton Reduction toward Visible‐Light‐Driven Overall Water Splitting T Morikawa, S Sato, K Sekizawa, T Arai, TM Suzuki ChemSusChem 12 (9), 1807-1824, 2019 | 31 | 2019 |
| Highly Enhanced Electrochemical Water Oxidation Reaction over Hyperfine β-FeOOH(Cl):Ni Nanorod Electrode by Modification with Amorphous Ni(OH)2 TM Suzuki, T Nonaka, K Kitazumi, N Takahashi, S Kosaka, Y Matsuoka, ... Bulletin of the Chemical Society of Japan 91 (5), 778-786, 2018 | 29 | 2018 |
Takeshi MorikawaToyota Central R&D Labs., Inc.Bestätigte E-Mail-Adresse bei mosk.tytlabs.co.jp
