K
Kazuhiko Maeda
Researcher at Tokyo Institute of Technology
Publications - 301
Citations - 41155
Kazuhiko Maeda is an academic researcher from Tokyo Institute of Technology. The author has contributed to research in topics: Water splitting & Photocatalysis. The author has an hindex of 78, co-authored 270 publications receiving 34833 citations. Previous affiliations of Kazuhiko Maeda include Japan Society for the Promotion of Science & University of Tokyo.
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Solar Water Oxidation by a Visible-Light-Responsive Tantalum/Nitrogen-Codoped Rutile Titania Anode for Photoelectrochemical Water Splitting and Carbon Dioxide Fixation
Akinobu Nakada,Akinobu Nakada,Tomoki Uchiyama,Nozomi Kawakami,Go Sahara,Shunta Nishioka,Ryutaro Kamata,Hiromu Kumagai,Osamu Ishitani,Yoshiharu Uchimoto,Kazuhiko Maeda +10 more
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Homogeneous Electron Doping into Nonstoichiometric Strontium Titanate Improves Its Photocatalytic Activity for Hydrogen and Oxygen Evolution
Shunta Nishioka,Shunta Nishioka,Junji Hyodo,Junie Jhon M. Vequizo,Shunsuke Yamashita,Hiromu Kumagai,Koji Kimoto,Akira Yamakata,Yoshihiro Yamazaki,Kazuhiko Maeda +9 more
TL;DR: In this paper, the authors present a systematic and quantitative evaluation of photocatalytic hydrogen and oxygen evolution using a model strontium titanate powder/aqueous solution interface in a half reaction.
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Front Cover: Solar Water Oxidation by a Visible‐Light‐Responsive Tantalum/Nitrogen‐Codoped Rutile Titania Anode for Photoelectrochemical Water Splitting and Carbon Dioxide Fixation (ChemPhotoChem 1/2019)
Akinobu Nakada,Akinobu Nakada,Tomoki Uchiyama,Nozomi Kawakami,Go Sahara,Shunta Nishioka,Ryutaro Kamata,Hiromu Kumagai,Osamu Ishitani,Yoshiharu Uchimoto,Kazuhiko Maeda +10 more
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Physicochemical properties and photocatalytic H2 evolution activity of Rh-doped La2Ti2O7 prepared by molten salt synthesis
TL;DR: In this article, the effects of the conditions used during molten salt synthesis of Rh-doped La2Ti2O7 on the resultant physical properties and photocatalytic activity are presented.
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Graphitic carbon nitride prepared from urea as a photocatalyst for visible-light carbon dioxide reduction with the aid of a mononuclear ruthenium(II) complex.
TL;DR: The photocatalytic activities of RuP/g-C3N4 for CO2 reduction and H2 evolution were shown to be strongly associated with the generation of the crystallized g-C 3N4 phase.