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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Direct synthesis of alkylsilanes by platinum-catalyzed coupling of hydrosilanes and iodoalkanes
Hikaru Inubushi,Hitoshi Kondo,Aldes Lesbani,Mariko Miyachi,Yoshinori Yamanoi,Hiroshi Nishihara +5 more
TL;DR: Alkyl iodides and tertiary silanes were successfully coupled with good functional group tolerance using a Pt(P(tBu)(3))(2)/(iPr)(2)EtN/CH(3)CN system and the utility of the methodology is demonstrated by the synthesis of silafluofen, a Si-containing insecticide.
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Surface‐Enhanced Raman Scattering Spectra of Pyridine Adsorbed on Nickel
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Osimertinib Overcomes Alectinib Resistance Caused by Amphiregulin in a Leptomeningeal Carcinomatosis Model of ALK-Rearranged Lung Cancer
Sachiko Arai,Shinji Takeuchi,Koji Fukuda,Hirokazu Taniguchi,Akihiro Nishiyama,Azusa Tanimoto,Miyako Satouchi,Kaname Yamashita,Koshiro Ohtsubo,Shigeki Nanjo,Toru Kumagai,Ryohei Katayama,Makoto Nishio,Mei mei Zheng,Yi-Long Wu,Hiroshi Nishihara,Takushi Yamamoto,Mitsutoshi Nakada,Seiji Yano +18 more
TL;DR: Combined treatment with alectinib and EGFR-TKIs, such as erlotin ib and osimertinib, successfully controlled progression of LMC and indicate the potential of novel therapies targeting both ALK and EG FR for the treatment of ALK-TKI-resistant LMC in AlK-rearranged NSCLC.
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Wavelength conversion in linbo3 waveguide difference-frequency generation devices with domain-inverted gratings fabricated by voltage application
TL;DR: LiNbO3 waveguide quasi-phasematched (QPM) difference-frequency generation (DFG) devices were studied for wavelength conversion in wavelength range of 1-2 µm as discussed by the authors.
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Photosensing System Using Photosystem I and Gold Nanoparticle on Graphene Field-Effect Transistor.
Daiki Nishiori,Wenchao Zhu,Raphaël Salles,Mariko Miyachi,Yoshinori Yamanoi,Takashi Ikuta,Kenzo Maehashi,Tatsuya Tomo,Hiroshi Nishihara +8 more
TL;DR: A light sensor based on photosystem I (PSI) and a graphene field-effect transistor (FET) that detects light at a high quantum yield under ambient conditions and represents the first successful photosensing system based on proteins and a solution-gated graphene FET is fabricated.