K
Katsutoshi Nagaoka
Researcher at Nagoya University
Publications - 120
Citations - 3810
Katsutoshi Nagaoka is an academic researcher from Nagoya University. The author has contributed to research in topics: Catalysis & Ammonia production. The author has an hindex of 27, co-authored 113 publications receiving 3009 citations. Previous affiliations of Katsutoshi Nagaoka include Kyoto University & Technische Universität München.
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Titania-supported cobalt and nickel bimetallic catalysts for carbon dioxide reforming of methane
TL;DR: In this paper, Titania-supported cobalt and nickel bimetallic catalysts were investigated for CO2 reforming of methane to synthesis gas at 1023 K under ambient pressure.
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Discovery of face-centered-cubic ruthenium nanoparticles: facile size-controlled synthesis using the chemical reduction method.
Kohei Kusada,Hirokazu Kobayashi,Tomokazu Yamamoto,Syo Matsumura,Naoya Sumi,Katsutoshi Sato,Katsutoshi Sato,Katsutoshi Nagaoka,Yoshiki Kubota,Hiroshi Kitagawa,Hiroshi Kitagawa +10 more
TL;DR: The first discovery of pure face-centered-cubic (fcc) Ru nanoparticles is reported, and their catalytic activities in CO oxidation were investigated and found to depend on their structure and size.
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Solid Solution Alloy Nanoparticles of Immiscible Pd and Ru Elements Neighboring on Rh: Changeover of the Thermodynamic Behavior for Hydrogen Storage and Enhanced CO-Oxidizing Ability
Kohei Kusada,Hirokazu Kobayashi,Ryuichi Ikeda,Yoshiki Kubota,Masaki Takata,Shoichi Toh,Tomokazu Yamamoto,Syo Matsumura,Naoya Sumi,Katsutoshi Sato,Katsutoshi Sato,Katsutoshi Nagaoka,Hiroshi Kitagawa,Hiroshi Kitagawa +13 more
TL;DR: Pd(x)Ru(1-x) solid solution alloy nanoparticles were successfully synthesized over the whole composition range through a chemical reduction method, although Ru and Pd are immiscible at the atomic level in the bulk state.
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Carbon Deposition during Carbon Dioxide Reforming of Methane—Comparison between Pt/Al2O3 and Pt/ZrO2
TL;DR: In this article, the relation between coke formation and the deactivation of supported Pt catalysts during CO2 reforming of methane at temperatures above 1070 K such as used in the commercial process was studied.
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Modification of Co/TiO2 for dry reforming of methane at 2 MPa by Pt, Ru or Ni
TL;DR: In this article, the effects of noble metals on the catalytic stability of Co/TiO2 were investigated for the dry reforming of methane at 2.5 MPa and showed that noble metals improved the reducibility of cobalt oxide.