S
Shohei Tada
Researcher at Ibaraki University
Publications - 73
Citations - 2493
Shohei Tada is an academic researcher from Ibaraki University. The author has contributed to research in topics: Catalysis & Methanation. The author has an hindex of 19, co-authored 56 publications receiving 1723 citations. Previous affiliations of Shohei Tada include Japan Society for the Promotion of Science & Seikei University.
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Journal ArticleDOI
Ni/CeO2 catalysts with high CO2 methanation activity and high CH4 selectivity at low temperatures
TL;DR: In this article, the effect of support materials on CO2 conversion and CH4 selectivity was examined over 10-wt%Ni/CeO2, 10-wwt% Ni/α-Al2O3 and 10-Wt %Ni/MgO on the performance of CO2 methanation.
Journal ArticleDOI
CO2-to-Methanol Hydrogenation on Zirconia-Supported Copper Nanoparticles: Reaction Intermediates and the Role of the Metal–Support Interface
Kim Larmier,Wei-Chih Liao,Shohei Tada,Erwin Lam,René Verel,Atul Bansode,Atsushi Urakawa,Aleix Comas-Vives,Christophe Copéret +8 more
TL;DR: A mechanistic study of the hydrogenation of CO2 on Cu/ZrO2 is presented and it is shown that a formate species is the reaction intermediate and that the zirconia/copper interface is crucial for the conversion of this intermediate to methanol.
Journal ArticleDOI
Promotion of CO2 methanation activity and CH4 selectivity at low temperatures over Ru/CeO2/Al2O3 catalysts
Shohei Tada,Shohei Tada,Ochieng James Ochieng,Ryuji Kikuchi,Takahide Haneda,Hiromichi Kameyama +5 more
TL;DR: In this paper, the effect of loading amount of Ru/CeO 2 /Al 2 O 3 on CO 2 methanation activity and CH 4 selectivity was studied.
Journal ArticleDOI
Isolated Zr Surface Sites on Silica Promote Hydrogenation of CO2 to CH3OH in Supported Cu Catalysts
TL;DR: Observations imply that Zr(IV) surface sites at the periphery of Cu particles are responsible for promotingCH3OH formation on Cu-Zr-based catalysts and provide a guideline to develop selective CH3OH synthesis catalysts.
Journal ArticleDOI
Design of Interfacial Sites between Cu and Amorphous ZrO2 Dedicated to CO2-to-Methanol Hydrogenation
Shohei Tada,Shingo Kayamori,Tetsuo Honma,Hiromu Kamei,Akane Nariyuki,Kenichi Kon,Takashi Toyao,Takashi Toyao,Ken-ichi Shimizu,Ken-ichi Shimizu,Shigeo Satokawa +10 more
TL;DR: In this paper, the formation mechanism of active sites on Cu/ZrO2 specific toward CO2-to-methanol hydrogenation was examined, and the authors concluded that the selective synthesis of CuaZr1-aOb, especially amorphous CuZr 1-aO2, is a key feature of the catalyst preparation.