{"id":23,"date":"2023-06-12T16:30:01","date_gmt":"2023-06-12T07:30:01","guid":{"rendered":"https:\/\/wwwchem.sci.hokudai.ac.jp\/~inorganic\/?page_id=23"},"modified":"2026-03-06T14:15:11","modified_gmt":"2026-03-06T05:15:11","slug":"publication","status":"publish","type":"page","link":"https:\/\/wwwchem.sci.hokudai.ac.jp\/~inorganic\/publication\/","title":{"rendered":"PUBLICATION"},"content":{"rendered":"\n
Notes: Lab members<\/span>; Corresponding authors*<\/h6>\n\n\n\n

Cover Picture<\/h2>\n\n\n\n
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2026<\/h2>\n\n\n\n

Article<\/h3>\n\n\n\n
    \n
  1. Analyzing how the densification of LiTa2<\/sub>PO8<\/sub> ceramic electrolyte affects the ionic transport and mechanical properties<\/strong>
    Kana\u00a0Onoue<\/span>,*\u00a0Jeff\u00a0Wolfenstine,\u00a0Akira\u00a0Nasu<\/span>,\u00a0Masaki\u00a0Matsui<\/span>,\u00a0Jeff\u00a0Sakamoto
    J. Power Sources,<\/em> 672<\/strong>, 239561 (2026).
    DOI:     10.1016\/j.jpowsour.2026.239561<\/a>

    <\/li>\n\n\n\n
  2. Essential Factors in Lithium Ternary Fluorides for High-Voltage Cathode Coating Materials<\/strong>
    Kenta Nakanishi<\/span>, Akira Nasu<\/span>, Daisuke Abe, Koji Tanoue, Masaki Matsui<\/span>, Hiroaki Kobayashi<\/span>*
    Battery Energy,<\/em> 5<\/strong>, e70092 (2026).
    DOI:     10.1002\/bte2.70092<\/a>

    <\/li>\n<\/ol>\n\n\n\n

    Review<\/h3>\n\n\n\n
      \n
    1. Oxide-type Positive Electrode Design toward High-Energy Rechargeable Magnesium Batteries<\/strong>
      Takashi Yabu<\/span>, Reona Iimura,* Masaki Matsui<\/span>, Hiroaki Kobayashi<\/span>*
      Batteries Supercaps,<\/em> (accepted<\/em>).
      DOI: TBA
      <\/li>\n<\/ol>\n\n\n\n

      2025<\/h2>\n\n\n\n

      Article<\/h3>\n\n\n\n
        \n
      1. Pre-Coverage of Side Reaction Sites Enables Quasi-Anode-Free Rechargeable Aqueous Zinc Batteries<\/strong>
        Ruijie Zhu<\/span>, Takashi Yabu<\/span>, Cheng Yang, Shunyu Yao, Huijun Yang, Akira Nasu<\/span>, Masaki Matsui<\/span>, Hiroaki Kobayashi<\/span>*
        Adv. Funct. Mater.,<\/em> (in press<\/em>).
        DOI:         10.1002\/adfm.202523442<\/a>

        <\/li>\n\n\n\n
      2. Low Temperature Synthesis of Nickel-based Layered Cathodes<\/strong>
        Ryo Nakanishi<\/span>, Yasuhide Nakajima<\/span>, Kerdsiri Somphong<\/span>, Akira Nasu<\/span>, Hiroaki Kobayashi<\/span>, Masaki Matsui<\/span>*
        Chem. Lett.<\/em>, 54<\/strong>, upaf190 (2025).
        DOI:         10.1093\/chemle\/upaf190<\/a>

        <\/li>\n\n\n\n
      3. Decoupling the electrochemical behavior of Zn anodes in aqueous electrolytes<\/strong>
        Ruijie Zhu<\/span>, Tanghao Shi, Cheng Yang, Akira Nasu<\/span>, Chunyu Zhu, Masaki Matsui<\/span>, Hiroaki Kobayashi<\/span>,* Huijun Yang*
        Energy Stor. Mater.<\/em>, 82<\/strong>, 104632 (2025).
        DOI:         10.1016\/j.ensm.2025.104632<\/a>

        <\/li>\n\n\n\n
      4. Mechanochemical Synthesis of Potassium\u2013Ion Conductor K3<\/sub>SbS4<\/sub><\/strong>
        Takehiro Nakao, Chihiro Okushima, Takuya Kimura, Akira Nasu<\/span>, Kota Motohashi, Atsushi Sakuda, Akitoshi Hayashi*
        Electrochemistry<\/em>, 93<\/strong>, 077005 (2025).
        DOI:         10.5796\/electrochemistry.25-00082<\/a>

        <\/li>\n\n\n\n
      5. Ca2+<\/sup>-Driven Enhancement of Anodic Performance and Sulfur Utilization for Magnesium\u2013Sulfur Batteries<\/strong>
        Reona Iimura<\/span>,* Sibylle Riedel, Hiroaki Kobayashi<\/span>,* Masaki Matsui<\/span>, Itaru Honma, Maximilian Fichtner, Zhirong Zhao-Karger*
        ChemSusChem<\/em>, 18<\/strong>, e202500999 (2025).
        DOI:         10.1002\/cssc.202500999<\/a>

        <\/li>\n\n\n\n
      6. Decoding Cathode-Electrolyte Interface Issues in Conventional Ethers Electrolytes-Based Magnesium Rechargeable Batteries<\/strong>
        Ruijie Zhu<\/span>, Takashi Yabu<\/span>, Cheng Yang, Huijun Yang, Akira Nasu<\/span>, Toshihiko Mandai, Masaki Matsui<\/span>, Hiroaki Kobayashi<\/span>*
        Adv. Energy Mater.<\/em>, 15<\/strong>, 2502050 (2025).
        DOI:         10.1002\/aenm.202502050<\/a>
        Press Release :         \u30de\u30b0\u30cd\u30b7\u30a6\u30e0\u96fb\u6c60\u306e\u52a3\u5316\u6319\u52d5\u3092\u89e3\u660e<\/a>

        <\/li>\n\n\n\n
      7. Reversible Phase Transition in Ruddlesden-Popper-type Oxysulfide Y2<\/sub>Ti2<\/sub>O5<\/sub>S2<\/sub> for Lithium-Ion Battery Anodes<\/strong>
        Naoto Takada<\/span>, Akira Nasu<\/span>, Hiroaki Kobayashi<\/span>, Masaki Matsui<\/span>*
        Electrochemistry<\/em>, 93<\/strong>, 063018 (2025).
        DOI:         10.5796\/electrochemistry.25-71041<\/a>

        <\/li>\n\n\n\n
      8. Romanechite, an Asymmetric Tunnel-Type MnO2<\/sub>, for Rechargeable Magnesium Battery Cathodes<\/strong>
        Takashi Yabu<\/span>, Reona Iimura<\/span>, Akira Nasu<\/span>, Toshihiko Mandai, Masaki Matsui<\/span>, Hiroaki Kobayashi<\/span>*
        Batteries Supercaps<\/em>, 8<\/strong>, e202500118 (2025).
        DOI:         10.1002\/batt.202500118<\/a>

        <\/li>\n\n\n\n
      9. Ultrasmall Manganese Nanospinels Produced via an Alcohol Reduction Method and Their Electrocatalytic Oxygen Evolution Reactivity<\/strong>
        Yuuki Sugawara,* Kazuyuki Iwase,* Reona Iimura, Takashi Yabu<\/span>, Akira Nasu<\/span>, Masaki Matsui<\/span>, Itaru Honma, Takeo Yamaguchi, Hiroaki Kobayashi<\/span>*
        ACS Appl. Mater. Interfaces<\/em>, 17<\/strong>, 22487\u201322497 (2025).
        DOI:         10.1021\/acsami.4c18777<\/a>

        <\/li>\n\n\n\n
      10. Ultrasmall \u03b1-MnO2<\/sub> with Low Aspect Ratio: Applications to Electrochemical Multivalent-Ion Intercalation Hosts and Aerobic Oxidation Catalysts
        <\/strong>Reona Iimura, Shiori Kawasaki, Takashi Yabu<\/span>, Shinnosuke Tachibana, Kazuya Yamaguchi, Toshihiko Mandai, Kazuaki Kisu, Naoto Kitamura, Zhirong Zhao-Karger, Shin-ichi Orimo, Yasushi Idemoto, Masaki Matsui<\/span>, Maximilian Fichtner, Itaru Honma, Tetsu Ichitsubo, Hiroaki Kobayashi<\/span>*
        Small<\/em>, 21<\/strong>, 2411493 (2025).
        DOI:         10.1002\/smll.202411493<\/a>
        Press Release :         \u5408\u6210\u6280\u8853\u306e\u300c\u65b0\u65e7\u878d\u5408\u300d\u4e8c\u9178\u5316\u30de\u30f3\u30ac\u30f3\u3092\u6975\u5c0f\u30ca\u30ce\u7c92\u5b50\u306b\uff5e\u6975\u5c0f\u30ca\u30ce\u9818\u57df\u306e\u30e6\u30cb\u30fc\u30af\u306a\u7c92\u5b50\u5f62\u614b\u306b\u3088\u3063\u3066\u6b21\u4e16\u4ee3\u84c4\u96fb\u6c60\u3084\u89e6\u5a92\u304c\u9ad8\u6027\u80fd\u306b\uff5e<\/a>

        <\/li>\n\n\n\n
      11. Selective Growth of ZnO Nanosheets via Ionic Layer Epitaxy for UV Photodetection Application
        <\/strong>Ryunosuke Matsumura, Yuta Kazama, Hikaru Saito, Takao Yasui, Yasutaka Matsuo, Akira Nasu<\/span>, Hiroaki Kobayashi<\/span>, Sayuki Oka, Narathon Khemasiri, Kazuki Nagashima*
        ACS Appl. Nano Mater.<\/em>, 8<\/strong>, 2623\u20132631 (2025).
        DOI:         10.1021\/acsanm.4c07224<\/a>

        <\/li>\n\n\n\n
      12. Acetonitrile-Based Highly Concentrated Electrolytes for High-Power Organic Sodium-Ion Batteries<\/strong>
        Yoshiyuki Gambe, Hiroaki Kobayashi<\/span>,* Itaru Honma*
        ACS Appl. Mater. Interfaces<\/em>, 17<\/strong>, 3316\u20133323 (2025).
        DOI:         10.1021\/acsami.4c16866<\/a>

        <\/li>\n\n\n\n
      13. Self-Reinforced Cathode Interface to Prolong the Cyclic Stability of Zn-MnO2<\/sub> Batteries<\/strong>
        Xiangru Si, Ruijie Zhu<\/span>,* Cheng Yang, Tanghao Shi, Peixing Du, Min Li, Yang Yang, Wei Cui, Huijun Yang,* Hiroaki Kobayashi<\/span>, Masaki Matsui<\/span>, Nan Sheng, Chunyu Zhu*
        Nano Lett.<\/em>, 25<\/strong>, 28\u201334 (2025).
        DOI:         10.1021\/acs.nanolett.4c03390<\/a>
        <\/li>\n<\/ol>\n\n\n\n

        2024<\/h2>\n\n\n\n

        Article<\/h3>\n\n\n\n
          \n
        1. A Nanoparticle ZnMn2<\/sub>O4<\/sub>\/Graphene Composite Cathode Doubles the Reversible Capacity in an Aqueous Zn-Ion Battery
          <\/strong>Yuto Katsuyama, Chie Ooka, Ruijie Zhu<\/span>, Reona Iimura, Masaki Matsui<\/span>, Richard B. Kaner, Itaru Honma, Hiroaki Kobayashi<\/span>*
          Adv. Funct. Mater.<\/em>, 34<\/strong>, 2405551 (2024).
          DOI:           10.1002\/adfm.202405551<\/a>
          Press Release :           \u30ea\u30c1\u30a6\u30e0\u30a4\u30aa\u30f3\u96fb\u6c60\u306b\u7f6e\u304d\u63db\u308f\u308b\u6c34\u7cfb\u96fb\u6c60\uff5e\u6b21\u4e16\u4ee3\u4e9c\u925b\u30a4\u30aa\u30f3\u96fb\u6c60\u3092\u30ca\u30ce\u30c6\u30af\u30ce\u30ed\u30b8\u30fc\u3067\u9ad8\u30a8\u30cd\u30eb\u30ae\u30fc\u5316\uff5e<\/a>

          <\/li>\n\n\n\n
        2. Chemical Compatibility of Solid-State Electrolytes with Hydroflux Cathode-Coating Process
          <\/strong>Kana Onoue<\/span>, Tomoyuki Watanabe, Christopher C. John<\/span>, Akira Nasu<\/span>, Hiroaki Kobayashi<\/span>, Masaki Matsui<\/span>*
          Electrochemistry<\/em>, 92<\/strong>, 077002 (2024).
          DOI:           10.5796\/electrochemistry.24-00046<\/a>

          <\/li>\n\n\n\n
        3. An Electrically Conductive CuMn2<\/sub>O4<\/sub> Ultrananospinel Cathode for Room-Temperature Magnesium Rechargeable Batteries
          <\/strong>Reona Iimura, Hiroto Watanabe, Toshihiko Mandai, Itaru Honma, Hiroaki Imai, Hiroaki Kobayashi<\/span>*
          ACS Appl. Energy Mater.<\/em>, 7<\/strong>, 5308\u20135314 (2024).
          DOI:           10.1021\/acsaem.4c01211<\/a>

          <\/li>\n\n\n\n
        4. Effect of Vanadium Doping on \u03b1-Kx<\/em><\/sub>MnO2<\/sub> as a Positive Electrode Active Material for Rechargeable Magnesium Batteries<\/strong>
          Isaac Oda-Bayliss, Shunsuke Yagi,* Masao Kamiko, Kai Shimada, Hiroaki Kobayashi<\/span>, Tetsu Ichitsubo
          J. Mater. Chem. A<\/em>, 12<\/strong>, 17510\u201317519 (2024).
          DOI:           10.1039\/D4TA00659C<\/a>

          <\/li>\n\n\n\n
        5. Synthesis of High-Sodium-Content Oxythiosilicate Glass Electrolytes Via Sodium Polysulfide
          <\/strong>Tomoya Otono, Akira Nasu<\/span>, Taichi Asakura, Hiroe Kowada, Kota Motohashi, Atsushi Sakuda,* Masahiro Tatsumisago, Akitoshi Hayashi*
          Adv. Sustain. Syst.<\/em>, 8<\/strong>, 2400130 (2024).
          DOI:           10.1002\/adsu.202400130<\/a>

          <\/li>\n\n\n\n
        6. Toward Cost-Effective High-Energy Lithium-Ion Battery Cathodes: Covalent Bond Formation Empowers Solid-State Oxygen Redox in Antifluorite-Type Lithium-Rich Iron Oxide
          <\/strong>Hiroaki Kobayashi<\/span>,* Yuki Nakamura, Yumika Yokoyama, Itaru Honma, Masanobu Nakayama
          ACS Mater. Lett.<\/em>, 6<\/strong>, 2072\u20132076 (2024).
          DOI:           10.1021\/acsmaterialslett.4c00268<\/a>
          Press Release :           \u84c4\u96fb\u6c60\u6750\u6599\u306e\u4f4e\u30b3\u30b9\u30c8\u30fb\u9ad8\u5bb9\u91cf\u30fb\u5bff\u547d\u306e\u5171\u7acb\u306b\u6210\u529f\uff5e\u9244\u3068\u9178\u7d20\u3092\u6709\u52b9\u306b\u5229\u7528\u3057\u30ea\u30c1\u30a6\u30e0\u30a4\u30aa\u30f3\u96fb\u6c60\u306e\u8cc7\u6e90\u30ea\u30b9\u30af\u56de\u907f\u306b\u671f\u5f85\uff5e<\/a>

          <\/li>\n\n\n\n
        7. High-Sodium-Concentration Sodium Oxythioborosilicate Glass Synthesized via Ambient Pressure Method with Sodium Polysulfides
          <\/strong>Tomoya Otono, Akira Nasu<\/span>, Taichi Asakura, Hiroe Kowada, Kota Motohashi, Masahiro Tatsumisago, Atsushi Sakuda,* Akitoshi Hayashi*
          Inorg. Chem.<\/em>, 63<\/strong>, 4589\u20134594 (2024).
          DOI:           10.1021\/acs.inorgchem.3c04101<\/a>

          <\/li>\n\n\n\n
        8. Utilizing reactive polysulfides flux Na2<\/sub>Sx<\/em><\/sub> for the synthesis of sulfide solid electrolytes for all-solid-state sodium batteries
          <\/strong>Akira Nasu<\/span>, Tomoya Otono, Takuma Takayanagi, Minako Deguchi, Atsushi Sakuda,* Masahiro Tatsumisago, Akitoshi Hayashi*
          Energy Stor. Mater.<\/em>, 67<\/strong>, 103307 (2024).
          DOI:           10.1016\/j.ensm.2024.103307<\/a>

          <\/li>\n\n\n\n
        9. Heat Treatment of Mechanochemically Prepared Amorphous LiNi0.5<\/sub>Mn1.5<\/sub>O4<\/sub>\u2013Li2<\/sub>SO4<\/sub> as High-Voltage Positive-Electrode Material
          <\/strong>Neung Kwon, Akira Nasu<\/span>, Hiroe Kowada, Kota Motohashi, Masahiro Tatsumisago, Atsushi Sakuda,* Akitoshi Hayashi
          ACS Appl. Energy Mater.<\/em>, 7<\/strong>, 1687\u20131692 (2024).
          DOI:           10.1021\/acsaem.3c02698<\/a>

          <\/li>\n\n\n\n
        10. Ether molecule decomposition on MgM<\/em>2<\/sub>O4<\/sub> (M<\/em> = Mn, Fe, Co) spinel surface: A first-principles study
          <\/strong>Tomoaki Kaneko,* Yui Fujihara, Toshihiko Mandai, Hiroaki Kobayashi<\/span>, Keitaro Sodeyama*
          Electrochemistry<\/em>, 92<\/strong>, 027003 (2024).
          DOI:           10.5796\/electrochemistry.23-00087<\/a>

          <\/li>\n\n\n\n
        11. A 3.5 V-class organic sodium-ion battery using a croconate cathode
          <\/strong>Yoshiyuki Gambe, Hiroaki Kobayashi<\/span>,* Itaru Honma*
          Chem. Eng. J.<\/em>, 479<\/strong>, 147760 (2024).
          DOI:           10.1016\/j.cej.2023.147760<\/a>

          <\/li>\n<\/ol>\n\n\n\n

          Review<\/h3>\n\n\n\n
            \n
          1. Development of Oxide-Type Cathode Materials towards Room-Temperature Magnesium Rechargeable Batteries<\/strong>
            Hiroaki Kobayashi<\/span>*
            Electrochemistry<\/em><\/em>, 92<\/strong>, 101004 (2024).
            <\/em>DOI:             10.5796\/electrochemistry.24-00068<\/a>

            <\/li>\n\n\n\n
          2. All-Solid-State Sodium-ion Batteries: A Leading Contender in the Next-Generation Battery Race<\/strong>
            Ruijie Zhu<\/span>,* Zechen Li, Wei Zhang, Akira Nasu<\/span>, Hiroaki Kobayashi<\/span>, Masaki Matsui<\/span>
            J. Electrochem.<\/em><\/em>, 30<\/strong>, 2415002 (2024).
            <\/em>DOI:             10.61558\/2993-074X.3476<\/a>
            <\/strong>
            <\/li>\n<\/ol>\n\n\n\n

            Book and other publication<\/h3>\n\n\n\n
              \n
            1. Trigger of the Highly Resistive Layer Formation at the Cathode-Electrolyte Interface in All-Solid-State Lithium Batteries<\/strong>
              Masaki Matsui<\/span>
              Interface Ionics, Springer<\/em>
              ISBN: 978-981-97-6039-8
              <\/li>\n<\/ol>\n\n\n\n

              2023<\/h2>\n\n\n\n

              Article<\/h3>\n\n\n\n
                \n
              1. Trigger of the Highly Resistive Layer Formation at the Cathode\u2013Electrolyte Interface in All-Solid-State Lithium Batteries Using a Garnet-Type Lithium-Ion Conductor<\/strong>
                Kana Onoue<\/span>, Akira Nasu<\/span>, Kazuhiko Matsumoto, Rika Hagiwara, Hiroaki Kobayashi<\/span>, Masaki Matsui<\/span>*
                ACS Appl. Mater. Interfaces<\/em>, 15<\/strong>, 52333\u201352341 (2023).
                DOI:                 10.1021\/acsami.3c07177<\/a>

                <\/li>\n\n\n\n
              2. Kinetically Enhanced Reaction Pathway to Form Highly Crystalline Layered LiCoO2<\/sub> at Low Temperatures Below 300 \u00b0C
                <\/strong>Rannosuke Maeda, Ryo Nakanishi<\/span>, Minoru Mizuhata, Masaki Matsui<\/span>*<\/strong>
                Inorg. Chem.<\/em>, 62<\/strong>, 18830\u201318838 (2023).
                DOI:                 10.1021\/acs.inorgchem.3c01704<\/a>
                Press Release :                 \u84c4\u96fb\u6c60\u6750\u6599\u3092\u7701\u30a8\u30cd\u30eb\u30ae\u30fc\u3067\u5408\u6210\u3059\u308b\u624b\u6cd5\u306e\u958b\u767a\u306b\u6210\u529f\u301c\u30ea\u30c1\u30a6\u30e0\u30a4\u30aa\u30f3\u96fb\u6c60\u306e\u88fd\u9020\u6642\u306e\u30b3\u30b9\u30c8\u53ca\u3073CO2\u6392\u51fa\u91cf\u4f4e\u6e1b\u3078\u306e\u8ca2\u732e\u306b\u671f\u5f85\uff5e<\/a>

                <\/li>\n\n\n\n
              3. Mechanochemical Synthesis and Characterization of K2+x<\/em><\/sub>Zr1\u2013x<\/em><\/sub>Yx<\/em><\/sub>Cl6<\/sub>: Potassium-Ion-Conducting Chloride
                <\/strong>Yuya Okada, Akira Nasu<\/span>, Takuya Kimura, Hirofumi Tsukasaki, Shigeo Mori, Hamdi Ben Yahia, Kota Motohashi, Atsushi Sakuda, Akitoshi Hayashi*
                Chem. Mater.<\/em>, 35<\/strong>, 7422\u20137429 (2023).
                DOI:                 10.1021\/acs.chemmater.3c00185<\/a>

                <\/li>\n\n\n\n
              4. Correlation among crystal and local structure, phase transition, and Li\u2013ion conduction of solid electrolyte Li7<\/sub>La3<\/sub>Zr2<\/sub>O12<\/sub>
                <\/strong>Takanori Itoh,* Qiuyi Yuan, Chulho Song, Koji Ohara, Satoshi Hiroi, Toru Ishigaki, Masaki Matsui<\/span>
                J. Solid State Chem.<\/em><\/em>, 327<\/strong>, 124274 (2023).
                <\/em>DOI:                 10.1016\/j.jssc.2023.124274<\/a>

                <\/li>\n\n\n\n
              5. Hard Carbon\u2013Sulfide Solid Electrolyte Interface in All-Solid-State Sodium Batteries
                <\/strong>Wataru Yoshida, Akira Nasu<\/span>, Kota Motohashi, Masahiro Tatsumisago, Atsushi Sakuda,* Akitoshi Hayashi
                Electrochemistry<\/em><\/em>, 91<\/strong>, 037009 (2023).
                <\/em>DOI:                 10.5796\/electrochemistry.23-00009<\/a>

                <\/li>\n<\/ol>\n\n\n\n

                Book and other publication<\/h3>\n\n\n\n
                  \n
                1. \u9006\u86cd\u77f3\u578b\u30ea\u30c1\u30a6\u30e0\u9244\u9178\u5316\u7269\u3092\u5229\u7528\u3057\u305f\u9ad8\u5bb9\u91cf\u6b63\u6975\u306e\u958b\u767a<\/strong>
                  \u5c0f\u6797\u5f18\u660e<\/span>
                  EV\u7528\u96fb\u6c60\u306e\u5b89\u5168\u6027\u5411\u4e0a\u3001\u9ad8\u5bb9\u91cf\u5316\u3068\u52a3\u5316\u6291\u5236\u6280\u8853, \u6280\u8853\u60c5\u5831\u5354\u4f1a<\/em>
                  ISBN: 978-4-86104-992-7

                  <\/li>\n\n\n\n
                2. \u30ca\u30ce\u7d50\u6676\u9178\u5316\u7269\u306e\u958b\u767a\u3068\u30de\u30b0\u30cd\u30b7\u30a6\u30e0\u4e8c\u6b21\u96fb\u6c60\u6b63\u6975\u5fdc\u7528
                  <\/strong>\u5c0f\u6797\u5f18\u660e<\/span>, \u672c\u9593\u683c
                  \u6b21\u4e16\u4ee3\u4e8c\u6b21\u96fb\u6c60\u306e\u958b\u767a\u52d5\u5411, \u30b7\u30fc\u30a8\u30e0\u30b7\u30fc\u51fa\u7248<\/em>
                  <\/em>ISBN: 978-4-7813-1730-4<\/li>\n<\/ol>\n\n\n\n

                  2022<\/h2>\n\n\n\n

                  Article<\/h3>\n\n\n\n
                    \n
                  1. Disproportionation Phenomenon at the Silica Interface of Propylene Carbonate\u20131,2-Dimethoxyethane Binary Solvent Containing Lithium Perchlorate
                    <\/strong>Yoshimasa Suzuki, Nobuaki Kunikata, Motohiro Kasuya, Hideshi Maki, Masaki Matsui<\/span>, Kazue Kurihara,* Minoru Mizuhata*
                    J. Phys. Chem. C<\/em>, 126<\/strong>, 11810\u201311821 (2022).
                    DOI:                     10.1021\/acs.jpcc.2c02980<\/a>

                    <\/li>\n\n\n\n
                  2. The Effect of the Solvation Ability Towards Mg2+<\/sup>-ion on the Kinetic Behavior of Mg3<\/sub>Bi2<\/sub> Electrode
                    <\/strong>Fumihiro Sagane,* Masaki Matsui<\/span>, Kiyoshi Kanamura
                    J. Electrochem. Soc.<\/em>, 169<\/strong>, 030517 (2022).
                    DOI:                     10.1149\/1945-7111\/ac593a<\/a>

                    <\/li>\n<\/ol>\n\n\n\n

                    Review<\/h3>\n\n\n\n
                      \n
                    1. Electrochemical In Situ\/operando<\/i> Spectroscopy and Microscopy Part 2: Battery Applications
                      <\/strong>Masaki Matsui<\/span>,* Yuki Orikasa, Tomoki Uchiyama, Naoya Nishi, Yuto Miyahara, Misae Otoyama, Tetsuya Tsuda
                      Electrochemistry<\/em><\/em>, 90<\/strong>, 102010 (2022).
                      <\/em>DOI:                       10.5796\/electrochemistry.22-66109<\/a>
                      <\/strong>
                      <\/li>\n\n\n\n
                    2. Electrochemical In Situ\/operando<\/i> Spectroscopy and Microscopy Part 1: Fundamentals
                      <\/strong>Masaki Matsui<\/span>,* Yuki Orikasa, Tomoki Uchiyama, Naoya Nishi, Yuto Miyahara, Misae Otoyama, Tetsuya Tsuda
                      Electrochemistry<\/em>, 90<\/strong>, 102009 (2022).
                      DOI:                       10.5796\/electrochemistry.22-66093<\/a>
                      <\/strong>
                      <\/li>\n<\/ol>\n\n\n\n

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                      PUBLICATION<\/h2>\n