Tanaka Koji | Institute For Molecular Science And Crest Japan Science And Technology Agency (jst)
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概要
- Tanaka Kojiの詳細を見る
- 同名の論文著者
- Institute For Molecular Science And Crest Japan Science And Technology Agency (jst)の論文著者
関連著者
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Tanaka Koji
Institute For Molecular Science And Crest Japan Science And Technology Agency (jst)
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Tanaka Koji
Institute For Molecular Science
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TANAKA Koji
Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency
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Tanaka K
Institute For Molecular Science And Crest Japan Science And Technology Agency (jst)
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Tanaka Kayoko
Department Of Chemistry Faculty Of Science Konan University
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Tanaka K
Jst‐crest Okazaki
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NAGAO Hirotaka
Department of Chemistry, Faculty of Science and Engineering, Sophia University
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NAGAO Hirotaka
Institute for Molecular Science
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Wada Tohru
Institute For Molecular Science And Crest Japan Science And Technology Agency (jst)
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Wada Tohru
Institute For Molecular Science And Crest Japan Science And Technology Agency
著作論文
- Different Electrochemical Behavior of Complexes Having the Identical Nitroso Ligand in cis-[Ru(N,O-hia)(bpy)_2]^+ and cis-[Ru(N,O-hia)(bpy)(py)_2]^+ (hia : Hydroxyiminoacetylacetonato, CH_3COC(NO)COCH_3 ̄)
- Successive Chemical Reactions Accompanying a One-Electron Oxidation of a {MNO}^6-Type Nitrosyl Complex, Pentachloro(nitrosyl)ruthenate(2-), and a Characterization of the Product Species
- Novel Platinum-Ruthenium Dinuclear Complex Bridged by 2-Aminoethanethiol
- Comparison of Basicity of the Diimine and Quinoid Group of 1,10-Phenanthroline-5,6-dione Ligated on Pt(II)
- Structural Characterization of Ruthenium-Dioxolene Complexes with Ru^-SQ and Ru^-Cat Frameworks
- Redox Behavior of New Ru-Dioxolene-Ammine Complexes and Catalytic Activity toward Electrochemical Oxidation of Alcohol under Mild Conditions
- Strong Interaction between Carbonyl and Dioxolene Ligands Caused by Charge Distribution of Ruthenium-Dioxolene Frameworks of Mono-and Dicarbonylruthenium Complexes
- Radical Cyclization of O-Pentafluorobenzoyloximes Having a (Cyclohexadiene)Fe(CO)_3 Moiety
- An Industrial Process for Adipic Acid Production by the Liquid-Phase Oxidation of Cyclohexanone with Molecular Oxygen
- Deactivation of a Cu/Al_2O_3 Catalyst in a N_2O Decomposition Reaction