Artikel mit Open-Access-Mandaten - TAKATO MITSUDOMEWeitere Informationen
Nicht verfügbar: 4
Robust ruthenium phosphide catalyst for hydrogenation of sulfur-containing nitroarenes
H Ishikawa, N Nakatani, S Yamaguchi, T Mizugaki, T Mitsudome
ACS Catalysis 13 (8), 5744-5751, 2023
Mandate: Japan Science and Technology Agency
Highly active and sulfur-tolerant ruthenium phosphide catalyst for efficient reductive amination of carbonyl compounds
H Ishikawa, S Yamaguchi, T Mizugaki, T Mitsudome
ACS Catalysis 14 (7), 4501-4509, 2024
Mandate: Japan Science and Technology Agency
Nitrogen-rich molybdenum nitride synthesized in a crucible under air
M Demura, M Nagao, CH Lee, Y Goto, Y Nambu, M Avdeev, Y Masubuchi, ...
Inorganic Chemistry 63 (11), 4989-4996, 2024
Mandate: Japan Science and Technology Agency
Iron phosphide nanocrystals for highly active and stable heterogeneous catalysis of liquid-phase hydrogenation of nitrile
T Tsuda, M Sheng, H Ishikawa, S Yamazoe, J Yamasaki, S Yamaguchi, ...
Mandate: Japan Science and Technology Agency
Verfügbar: 9
Synthesis and structural analysis of (imido) vanadium dichloride complexes containing 2-(2′-benz-imidazolyl) pyridine ligands: Effect of Al cocatalyst for efficient ethylene …
K Nomura, M Oshima, T Mitsudome, H Harakawa, P Hao, K Tsutsumi, ...
ACS omega 2 (12), 8660-8673, 2017
Mandate: Chinese Academy of Sciences
Effect of Al cocatalyst in ethylene and ethylene/norbornene (Co) polymerization by (imido) vanadium dichloride complexes containing anionic N-heterocyclic carbenes having …
G Nagai, T Mitsudome, K Tsutsumi, S Sueki, T Ina, M Tamm, K Nomura
Journal of the Japan Petroleum Institute 60 (5), 256-262, 2017
Mandate: Deutsche Forschungsgemeinschaft
Iron phosphide nanocrystals as an air-stable heterogeneous catalyst for liquid-phase nitrile hydrogenation
T Tsuda, M Sheng, H Ishikawa, S Yamazoe, J Yamasaki, M Hirayama, ...
Nature Communications 14 (1), 5959, 2023
Mandate: Japan Science and Technology Agency
Nickel carbide nanoparticle catalyst for selective hydrogenation of nitriles to primary amines
S Yamaguchi, D Kiyohira, K Tada, T Kawakami, A Miura, T Mitsudome, ...
Chemistry–A European Journal 30 (13), e202303573, 2024
Mandate: Japan Science and Technology Agency
A copper nitride nanocube catalyst for highly efficient hydroboration of alkynes
H Xu, S Yamaguchi, T Mitsudome, T Mizugaki
Organic & Biomolecular Chemistry 21 (7), 1404-1410, 2023
Mandate: Japan Science and Technology Agency
Green Oxidation of Indoles Using Molecular Oxygen over a Copper Nitride Nanocube Catalyst
H Xu, S Yamaguchi, T Mitsudome, T Mizugaki
European Journal of Organic Chemistry 2022 (30), e202200826, 2022
Mandate: Japan Science and Technology Agency
Reductive amination of carboxylic acids under H 2 using a heterogeneous Pt–Mo catalyst
K Sakoda, S Yamaguchi, K Honjo, Y Kitagawa, T Mitsudome, T Mizugaki
Green Chemistry 26 (5), 2571-2576, 2024
Mandate: Japan Science and Technology Agency
Air-stable iron phosphide catalysts for electric field-assisted low-temperature ammonia synthesis
R Maeda, H Sampei, T Tsuda, H Akiyama, Y Mizutani, T Higo, H Tsuneki, ...
Sustainable Energy & Fuels 8 (9), 2087-2093, 2024
Mandate: Japan Science and Technology Agency
Air-Stable and Highly Active Transition Metal Phosphide Catalysts for Reductive Molecular Transformations
T Mitsudome
Catalysts 14 (3), 193, 2024
Mandate: Japan Science and Technology Agency
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