Rchr
J-GLOBAL ID:201101087653552321   Update date: Feb. 01, 2024

Mizuhata Minoru

ミズハタ ミノル | Mizuhata Minoru
Affiliation and department:
Other affiliations (1):
Homepage URL  (1): http://kaken.nii.ac.jp/ja/r/10283871
Research field  (3): Inorganic materials ,  Composite materials and interfaces ,  Inorganic compounds/materials chemistry
Research keywords  (3): Interface chemistry ,  Electrochemistry ,  Inorganic chemistry
Research theme for competitive and other funds  (16):
  • 2017 - 【CREST】電極/電解質ヘテロ相界面のモデル化とイオン輸送
  • 2016 - 【CREST】電極/電解質ヘテロ相界面のモデル化とイオン輸送
  • 2010 - 2011 液相析出法による層状複水酸化物構造体の創製
  • 2011 - ソフト溶液プロセスを基盤とする高容量電極材料の研究開発
  • 2005 - 2009 Functional design of ionic liquid electrolytes for novel electrochemical devices
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Papers (252):
  • Rannosuke Maeda, Ryo Nakanishi, Minoru Mizuhata, Masaki Matsui. Kinetically Enhanced Reaction Pathway to Form Highly Crystalline Layered LiCoO2 at Low Temperatures Below 300 °C. Inorganic Chemistry. 2023
  • Minoru Mizuhata. Electrical Conductivity Measurement of Electrolyte Solution. Electrochemistry. 2022. 90. 10. 102011
  • Kazuya HANAMI, Hideshi MAKI, Rei MATSUDA, Minoru MIZUHATA. Why Does 1H NMR Signal Intensity of Concentrated Aqueous Acids and Bases Decrease Anomalously?. Electrochemistry. 2022. 90. 10. 103005
  • Minoru Mizuhata. Aqueous solution reaction during liquid-phase deposition and its application in electrochemical materials. Journal of the Ceramic Society of Japan. 2022. 130. 9. 752-761
  • Yoshimasa SUZUKI, Minoru MIZUHATA. Predictive Zeta Potential Measurement Method Applicable to Nonaqueous Solvents in High-concentration Dispersion Systems for the System of LiClO4-Propylene Carbonate Solution and LiCoO2 Powder Sheet. Electrochemistry. 2022. 90. 10. 103001
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MISC (525):
  • MIZUHATA Minoru. In Memory of Professor Shigehito Deki. Denki Kagaku. 2022. 90. 2. 171-171
  • 篠原史憲, 鈴木良将, 牧秀志, 水畑穣, 水畑穣. Correlation between ion conduction and zeta potential on core-shell oxide surfaces modified by alternate oxides. 日本化学会春季年会講演予稿集(Web). 2022. 102nd
  • 牧秀志, 長谷川茜, 水畑穣. Ion pairformation behavior analysis of Al3+ and La3+ ions by quantitative NMR. 電気化学会大会講演要旨集(CD-ROM). 2022. 89th
  • 永井将崇, 牧秀志, 水畑穣, 水畑穣. Quantitative NMR Study on Solvation of Lithium Electrolyte in Binary Hydrous Solvents. 日本化学会春季年会講演予稿集(Web). 2022. 102nd
  • 水畑 穣. 追悼 続々・溶液と境界層 : 出来成人先生の足跡と溶融塩. 溶融塩および高温化学 = Molten salts / 電気化学会溶融塩委員会 編. 2022. 65. 2. 73-76
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Patents (29):
Books (14):
  • 第49回電気化学講習会テキスト 実験講習会ー電気化学測定を使いこなすー
    電気化学会関西支部 2019
  • Molten Salts Chemistry and Technology
    Wiley 2014 ISBN:9781118448731
  • リチウムイオン電池活物質の開発と電極材料技術
    サイエンス&テクノロジー 2014 ISBN:9784864280891
  • 電気化学/インピーダンス測定のノウハウと正しいデータ解釈
    技術情報協会 2013
  • 第6版 電気化学便覧
    丸善出版 2013 ISBN:9784621084137
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Lectures and oral presentations  (712):
  • 亜硝酸イオン形層状複水酸化物含有アクリルゲルシートを用いた鋼板の防食効果
    (2021年 電気化学会第88回大会 2021)
  • γ-LiAlO /三元系共融炭酸塩共存系のイオン伝導に与える固相の影響
    (2021年 電気化学会第88回大会 2021)
  • 非水電解液中の酸化リチウムコバルト(III)の表面電位の電解液濃度依存性
    (2021年 電気化学会第88回大会 2021)
  • 非水電解液中の酸化リチウムコバルト(III)の表面電位測定法
    (2021年 電気化学会第88回大会 2021)
  • 固液界面近傍におけるイオン伝導
    (近化電池セミナー アドバンストLIBを理解するための材料電気化学 -その基礎と応用ー 2021)
more...
Education (1):
  • - 1992 Kobe University Graduate School of Science and Technology
Professional career (2):
  • 工学修士 (神戸大学)
  • 博士(理学) (神戸大学)
Work history (7):
  • 2011/01 - 現在 Kobe University Graduate School of Engineering Department of Chemical Science and Engineering Professor
  • 2019/10 - 2020/03 Jagiellonian University Faculty of Chemistry Visiting Professor
  • 2007/04 - 2010/12 Kobe University Graduate School of Engineering Department of Chemical Science and Engineering Associate Professor
  • 2005/04 - 2007/03 Kobe University Faculty of Engineering Department of Chemical Science and Engineering Associate Professor
  • 1996/04 - 2005/03 Kobe University Faculty of Engineering Department of Chemical Science and Engineering Research Associate
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Committee career (4):
  • 電気化学会 関西支部関西電気化学研究会世話人代表
  • 電気化学会 関西支部常任幹事
  • 日本化学会 コロイド及び界面部会関西支部幹事
  • 日本化学会 近畿支部常任幹事
Awards (9):
  • 2023/03 - The Electrochemical Society of Japan Excellent Paper Award of The Electrochemical Society of Japan Predictive Zeta Potential Measurement Method Applicable to Nonaqueous Solvents in High-concentration Dispersion Systems for the System ofLiClO4-Propylene Carbonate Solution and LiCoO2 Powder Sheet
  • 2017/06 - 日本セラミックス協会 第71回(平成28年度)日本セラミックス協会学術賞 水溶液反応による酸化物析出反応プロセスの解明と電気化学材料への展開
  • 2016/09 - Japan Society for the Promotion of Science Review Committee Member Award, Grant-in-Aid for Scientific Research
  • 2016/08 - Chinese Academy of Science Functional Materials Scientist Award Fabrication and the Reaction Process of Liquid Phase Deposition
  • 2015/02 - Molten Salt Committee, The Electrochemical Society of Japan Molten Salt Prize Properties and Behavior of Molten Salts in Solid/Liquid Coexisting Systems
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Association Membership(s) (18):
The Fluorine Chemistry of Japan ,  The Magneto-Science Society of Japan ,  The Ceramics Society of Japan ,  The Rare Earth Society of Japan ,  International Society of Electrochemistry ,  Ionic Liquid Research Association ,  Society of Computer Chemistry, Japan ,  American Chemical Society ,  The Committee of Battery Technology, The Electrochemical Society of Japan ,  Molten Salt Committee, The Electrochemical Society of Japan ,  The Royal Society of Chemistry ,  The Electrochemical Society ,  The Japan Society of Applied Physics ,  The Electrochemical Society of Japan ,  Division of Colloid and Surface Chemistry, Chemical Society of Japan ,  The Chemical Society of Japan ,  The Chemical Software Society of Japan ,  The Electrochemical Society of Japan
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