N
Nobuko Tsumori
Researcher at Toyama National College of Technology
Publications - 45
Citations - 3586
Nobuko Tsumori is an academic researcher from Toyama National College of Technology. The author has contributed to research in topics: Catalysis & Formic acid. The author has an hindex of 24, co-authored 44 publications receiving 2888 citations. Previous affiliations of Nobuko Tsumori include National Institute of Advanced Industrial Science and Technology.
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Immobilizing Highly Catalytically Active Pt Nanoparticles inside the Pores of Metal–Organic Framework: A Double Solvents Approach
Arshad Aijaz,Abhijeet J. Karkamkar,Young Joon Choi,Nobuko Tsumori,Ewa Ronnebro,Tom Autrey,Hiroshi Shioyama,Qiang Xu +7 more
TL;DR: The resulting Pt@MIL-101 composites represent the first highly active MOF-immobilized metal nanocatalysts for catalytic reactions in all three phases: liquid-phase ammonia borane hydrolysis, solid- phase ammoniaborane thermal dehydrogenation, and gas-phase CO oxidation.
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Immobilizing Extremely Catalytically Active Palladium Nanoparticles to Carbon Nanospheres: A Weakly-Capping Growth Approach.
TL;DR: This remarkably facile and effective methanol-mediated weakly-capping growth approach (WCGA) provides a powerful entry into ultrafine metal NPs with clean surface to achieve enhanced performance and open up new avenues in the effective applications of FA for hydrogen storage.
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Sodium hydroxide-assisted growth of uniform Pd nanoparticles on nanoporous carbon MSC-30 for efficient and complete dehydrogenation of formic acid under ambient conditions
TL;DR: In this paper, high-dispersed Pd nanoparticles (NPs) were successfully prepared on nanoporous carbon MSC-30 with a sodium hydroxide-assisted reduction approach.
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Immobilizing highly catalytically active noble metal nanoparticles on reduced graphene oxide: a non-noble metal sacrificial approach
TL;DR: A non-noble metal sacrificial approach for the first time is developed to successfully immobilize highly dispersed AgPd nanoparticles on reduced graphene oxide (RGO) to open up a new avenue for the development of high-performance metal nanocatalysts.
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OCBBCO: A neutral molecule with some boron-boron triple bond character
TL;DR: Experimental and theoretical evidence is reported of a neutral OCBBCO molecule with some boron-boron triple bond character that was produced and unambiguously characterized by matrix isolation infrared spectroscopy.