| Photocatalytic uphill conversion of natural gas beyond the limitation of thermal reaction systems S Shoji, X Peng, A Yamaguchi, R Watanabe, C Fukuhara, Y Cho, ... Nature Catalysis 3 (2), 148-153, 2020 | 218 | 2020 |
| Visible-light-driven dry reforming of methane using a semiconductor-supported catalyst Y Cho, S Shoji, A Yamaguchi, T Hoshina, T Fujita, H Abe, M Miyauchi Chemical Communications 56 (33), 4611-4614, 2020 | 54 | 2020 |
| Temperature dependence on bandgap of semiconductor photocatalysts Y Cho, A Yamaguchi, R Uehara, S Yasuhara, T Hoshina, M Miyauchi The Journal of Chemical Physics 152 (23), 2020 | 45 | 2020 |
| Metal carbide as a light‐harvesting and anticoking catalysis support for dry reforming of methane K Takeda, A Yamaguchi, Y Cho, O Anjaneyulu, T Fujita, H Abe, ... Global Challenges 4 (1), 1900067, 2020 | 25 | 2020 |
| Active faceted nanoporous ruthenium for electrocatalytic hydrogen evolution ASBM Najib, M Iqbal, MB Zakaria, S Shoji, Y Cho, X Peng, S Ueda, ... Journal of Materials Chemistry A 8 (38), 19788-19792, 2020 | 21 | 2020 |
| CO2 oxidative coupling of methane using an earth-abundant CaO-based catalyst Y Zhang, Y Cho, A Yamaguchi, X Peng, M Miyauchi, H Abe, T Fujita Scientific Reports 9 (1), 15454, 2019 | 20 | 2019 |
| Photocatalytic methane reforming: recent advances Y Cho, A Yamaguchi, M Miyauchi Catalysts 11 (1), 18, 2020 | 16 | 2020 |
| Nanoporous nickel composite catalyst for the dry reforming of methane T Fujita, X Peng, A Yamaguchi, Y Cho, Y Zhang, K Higuchi, Y Yamamoto, ... Acs Omega 3 (12), 16651-16657, 2018 | 15 | 2018 |
| Charge partitioning by intertwined metal-oxide nano-architectural networks for the photocatalytic dry reforming of methane S Shoji, ASBM Najib, MW Yu, T Yamamoto, S Yasuhara, A Yamaguchi, ... Chem Catalysis 2 (2), 321-329, 2022 | 11 | 2022 |
| Gas‐Phase Photoelectrocatalysis Mediated by Oxygen Ions for Uphill Conversion of Greenhouse Gases M Kushida, A Yamaguchi, Y Cho, T Fujita, H Abe, M Miyauchi ChemPhotoChem 5 (3), 275-281, 2021 | 9 | 2021 |
| Photocatalytic uphill conversion of natural gas beyond the limitation of thermal reaction systems. Nat Catal 3: 148–153 S Shoji, X Peng, A Yamaguchi, R Watanabe, C Fukuhara, Y Cho, ... | 9 | 2020 |
| Intertwined nickel and magnesium oxide rival precious metals for catalytic reforming of greenhouse gases H Nishiguchi, ASBM Najib, X Peng, Y Cho, A Hashimoto, S Ueda, T Fujita, ... Advanced Sustainable Systems 4 (6), 2000041, 2020 | 8 | 2020 |
| Highly dispersed Ni nanoclusters spontaneously formed on hydrogen boride sheets N Noguchi, S Ito, M Hikichi, Y Cho, K Goto, A Kubo, I Matsuda, T Fujita, ... Molecules 27 (23), 8261, 2022 | 6 | 2022 |
| Bandgap widening through doping for improving the photocatalytic oxidation ability of narrow-bandgap semiconductors Y Yang, M Toyoda, A Yamaguchi, Y Cho, AN El Aisnada, H Abe, S Ueda, ... Physical Chemistry Chemical Physics 25 (1), 255-261, 2023 | 4 | 2023 |
| Photocatalysis under thermally shifted bandgap Y Cho, A Yamaguchi, AS Sinaga, Y Yang, M Miyauchi Applied Catalysis A: General 643, 118772, 2022 | 1 | 2022 |
| Sustaining syngas production at a near-unity H2/CO ratio in the photo-induced dry reforming of methane independent of the reactant gas composition H Kaneko, Y Cho, T Sugimura, A Hashimoto, A Yamaguchi, M Miyauchi Chemical Communications, 2024 | | 2024 |
| Methane Reformation: Intertwined Nickel and Magnesium Oxide Rival Precious Metals for Catalytic Reforming of Greenhouse Gases (Adv. Sustainable Syst. 6/2020) H Nishiguchi, ASBM Najib, X Peng, Y Cho, A Hashimoto, S Ueda, T Fujita, ... Advanced Sustainable Systems 4 (6), 2070011, 2020 | | 2020 |
Masahiro MiyauchiProfessor, Tokyo Institute of Technology在 ceram.titech.ac.jp 的电子邮件经过验证
