K
Kohsuke Mori
Researcher at Osaka University
Publications - 375
Citations - 15603
Kohsuke Mori is an academic researcher from Osaka University. The author has contributed to research in topics: Catalysis & Mesoporous silica. The author has an hindex of 61, co-authored 359 publications receiving 12631 citations. Previous affiliations of Kohsuke Mori include National Presto Industries & Osaka Ohtani University.
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Hydroxyapatite-Supported Palladium Nanoclusters: A Highly Active Heterogeneous Catalyst for Selective Oxidation of Alcohols by Use of Molecular Oxygen
TL;DR: The present Pd catalyst does not require additives to complete the catalytic cycle, and the diameters of the generated Pd nanoclusters can be controlled upon acting on the alcohol substrates used.
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Creation of a Monomeric Ru Species on the Surface of Hydroxyapatite as an Efficient Heterogeneous Catalyst for Aerobic Alcohol Oxidation
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Controlled synthesis of hydroxyapatite-supported palladium complexes as highly efficient heterogeneous catalysts.
TL;DR: The PdHAP are one of the most active heterogeneous catalysts for both alcohol oxidation under an atmospheric O(2)() pressure and the Heck reaction reported to date and are recyclable in the above organic reactions.
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Surfactant‐Free Nonaqueous Synthesis of Plasmonic Molybdenum Oxide Nanosheets with Enhanced Catalytic Activity for Hydrogen Generation from Ammonia Borane under Visible Light
Hefeng Cheng,Takashi Kamegawa,Takashi Kamegawa,Kohsuke Mori,Kohsuke Mori,Hiromi Yamashita,Hiromi Yamashita +6 more
TL;DR: It is demonstrated that plasmonic semiconductor nanostructures could be used as highly efficient catalysts that dramatically enhance the hydrogen-generation activity of ammonia borane under visible light irradiation.
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Pd and Pd–Ag Nanoparticles within a Macroreticular Basic Resin: An Efficient Catalyst for Hydrogen Production from Formic Acid Decomposition
TL;DR: In this article, a basic resin bearing −N(CH3)2 functional groups within its macroreticular structure performed as an efficient organic support for the active Pd nanoparticles (NPs) responsible for the production of high-quality H2 via formic acid (HCOOH) decomposition at convenient temperature.