H
Hiroshi Nishihara
Researcher at Keio University
Publications - 677
Citations - 17201
Hiroshi Nishihara is an academic researcher from Keio University. The author has contributed to research in topics: Medicine & Terpyridine. The author has an hindex of 62, co-authored 616 publications receiving 14683 citations. Previous affiliations of Hiroshi Nishihara include Tokyo University of Science & Ochanomizu University.
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Acid-Base Responsive Photoelectric Conversion of a Hydroxyazobenzene-appended Bipyridine-Copper Complex System
TL;DR: In this article, a new 4-hydroxyazobenzene-appended bipyridine complex of copper, [Cu(oAB-2OH)2]BF4, was synthesized, which exhibits a reversible acid-base responsive redox-active photoisomerization react.
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A novel intramolecular metallacycle-phosphine reaction of an electrochemically oxidized cobaltacyclopentadiene complex
TL;DR: A ferrocene-substituted cobaltacyclopentadiene complex, C5H5(PPh3) as mentioned in this paper, undergoes quasi-reversible two-step one-electron oxidation reactions in 0.1 mol dm−3 Bu4NClO4−CH2Cl2 at room temperature, while irreversible two-electro oxidation (ECE reaction) of C 5H5[C[graphic omitted]Fc]2 causes intramolecular addition of PPh3 fragments to the buta-1,3
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Glomangiopericytoma of the Nasal Cavity with CTNNB1 p.S37C Mutation: A Case Report and Literature Review
Michihisa Kono,Nobuyuki Bandoh,Ryosuke Matsuoka,Takashi Goto,Toshiaki Akahane,Yasutaka Kato,Hiroshi Nakano,Tomomi Yamaguchi,Yasuaki Harabuchi,Hiroshi Nishihara +9 more
TL;DR: Genetic analysis using next-generation sequencing revealed a missense mutation in the CTNNB1 gene in a 74-year-old woman with a history of recurrent epistaxis and nasal obstruction; this is the first report of this specific mutation.
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Integration of Detection Optics for Magnetooptical Disk Pickup
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Bio-inspired photoresponse of porphyrin-attached gold nanoparticles on a field-effect transistor.
TL;DR: A bio-inspired photoresponse was engineered in porphyrin-attached Au nanoparticles (AuNPs) on a field-effect transistor (FET) that mimics photosynthetic electron transfer, using p Morphyrin derivatives as photosensitizers and AuNPs as photoelectron counting devices.