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The importance of nanotechnology to freely control materials at the atomic and molecular scale (10-9m=1nm (nanometer)) is increasing for development such as catalysts that enable material conversion for realizing a sustainable recycling society and electronic materials that miniaturize devices around us. Since I learned that everything is made up of a combination of various atoms in my junior high school, I have been interested in chemistry which allows creating materials by controlling atoms. So far, I have been studying the synthesis of nano-sized metal particles (metal nanoparticles) using chemical methods and their catalytic application. In the Hakubi Project, I will promote basic research on multi-element nanoalloys, their efficient development methods, and applications as catalysts, which leads to developing new nanomaterials that would play a role in future society.
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论文共 113 篇作者统计合作学者相似作者
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ACS applied materials & interfacesno. 7 (2024): 8984-8992
Chemical Physics Letterspp.141178, (2024)
JOURNAL OF THE AMERICAN CHEMICAL SOCIETYno. 1 (2023): 181-186
Journal of the American Chemical Societyno. 44 (2023): 24005-24011
ACS APPLIED NANO MATERIALSno. 18 (2023): 16653-16661
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Chemical communications (Cambridge, England)no. 62 (2023): 9485-9488
Journal of the American Chemical Societyno. 31 (2023): 17136-17142
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Donato Decarolis,Monik Panchal,Matthew Quesne,Khaled Mohammed, Shaojun Xu,Mark Isaacs,Luke Keenan, Takuo Wakisaka,Kohei Kusada,Hiroshi Kitagawa,C. Richard Catlow,Emma Gibson,
Research Square (Research Square) (2022)
Alessandro Bellè,Kohei Kusada, Hiroshi Kitagawa,Alvise Perosa, Lidia Castoldi,Daniele Polidoro,Maurizio Selva
Catalysis Science & Technologyno. 1 (2022): 259-272
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