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沖田 尚久

職位

助教

所属

工学研究院 応用化学部門
グローバルイノベーション研究院 分野融合拠点

Researcher ID

B-6054-2015

AAE-6789-2019

Academic Degrees

学位

博士(工学)東京農工大学

Publications

論文

  • Orikasa, Y., Kisu, K., Iwama, E., Naoi, W., Yamaguchi, Y., Yamaguchi, Okita, N., K., Ohara, K., Munesada, T., Hattori, M., Yamamoto, K., Rozier, P., Simon, P., Naoi, K., Noncrystalline Nanocomposites as a Remedy for the Low Diffusivity of Multivalent Ions in Battery Cathodes. Chemistry of Materials (Chem. Mater.). 32(3): 1011-1021, 2020.
  • Okita, N., Iwama, E., Takami, Y., Abo, S., Reid, M. T. H., Naoi, W., Naoi, K., Crystal-structure-matched FePO4 surface-coating on LiCoPO4 / MWCNT nanocomposites for long lifecycle 5V class lithium ion batteries.(Electrochemistry).87.3.156-161.2019/01.
  • Okita, N., Iwama, E., Tatsumi, S., Vo, T. N. H., Naoi, W., Reid, M. T. H., Naoi, K., Prolonged Cycle Life for Li4Ti5O12//[Li3V2(PO4)3/ Multiwalled Carbon Nanotubes] Full Cell Configuration via Electrochemical Preconditioning.(Electrochemistry). 87.3.148-155.2019/01.
  • Okita, N., Kisu, K., Iwama, E., Sakai, Y., Lim, Y., Takami, Y., Sougrati, M.T., Brousse, T., Rozier, P., Simon, P., Naoi, W., Naoi, K. Stabilizing the Structure of LiCoPO4 Nanocrystals via Addition of Fe3+: Formation of Fe3+ Surface Layer, Creation of Diffusion-Enhancing Vacancies, and Enabling High-Voltage Battery Operation. Chemistry of Materials (Chem. mater.) 2018. DOI: 10.1021/acs.chemmater.8b01965 30.19:6675-6683

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