Tachikawa Yuya

タチカワユウヤ | Tachikawa Yuya

Affiliation and department：
Job title： Assistant Professor
Research theme for competitive and other funds (6)：

2023 - 2026 Principle and practice of catalytic decarbonization process constructed by converting industrial GHG to solid carbon and green resources
2021 - 2024 Interface chemistry of electrochemical reaction on the surface of proton conducting solid oxide
2020 - 2024 Systematization of direct-biogas fuel cell technology for creating a new trend of material and energy circulations
2020 - 2024 Theory and practice of an innovative reaction process for recovering resource from industrial emissions CO2, which is developed by a novel methanation system operated at a room temperature
2015 - 2018 Development of biomass fueled high temperature fuel cell with high durability against carbon deposition

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Papers (81)：

Yohei Nagatomo, Yuya Tachikawa, Stephen Matthew Lyth, Junko Matsuda, Kazunari Sasaki. Distribution of Relaxation Times of Fuel Electrodes for Reversible Solid Oxide Cells Fabricated Under Various Conditions. ECS Transactions. 2023. 112. 5. 121-128
Ko Yoshiga, Takeaki Okamoto, Yuya Tachikawa, Kazunari Sasaki. Effects of Current Collector on Internal Visualization of Solid Oxide Cells. ECS Transactions. 2023. 112. 5. 129-140
Ryota Ozaki, Kei Yamada, Kazutaka Ikegawa, Tsutomu Kawabata, Chie Uryu, Yuya Tachikawa, Junko Matsuda, Kazunari Sasaki. A Study on Electrochemical Properties of Fuel-Electrode-Supported Reversible Solid Oxide Cells. ECS Transactions. 2023. 112. 5. 141-147
Makoto Yoshikawa, Kotaro Yamamoto, Zhiyun Noda, Masahiro Yasutake, Tatsumi Kitahara, Yuya Tachikawa, Stephen Matthew Lyth, Akari Hayashi, Junko Matsuda, Kazunari Sasaki. Self-Supporting Microporous Layer for Polymer Electrolyte Fuel Cells. ECS Transactions. 2023. 112. 4. 83-91
Kazunari Sasaki, Katsuya Natsukoshi, Kei Yamada, Kazutaka Ikegawa, Masahiro Yasutake, Yuya Tachikawa, Stephen Matthew Lyth, Junko Matsuda, Bilge Yildiz, Harry L. Tuller. Reversible Solid Oxide Cells: Selection of Fuel Electrode Materials for Improved Performance and Durability. ECS Transactions. 2023. 111. 6. 1901-1906

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MISC (5)：

佐々木一成, 佐々木一成, 佐々木一成, 佐々木一成, 吉富寛晃, 三好航太, 瓜生智愛, 花崎雅洋, 西村隆史, 細井貴己, et al. SOFCの化学的耐久性に関する研究:現状と将来展望. 電気化学会大会講演要旨集. 2013. 80th
佐々木一成, 佐々木一成, 佐々木一成, 佐々木一成, 吉富寛晃, 三好航太, 瓜生智愛, 花崎雅洋, 西村隆史, 細井貴己, et al. SOFCの化学的耐久性に関する研究:現状と将来展望. 燃料電池シンポジウム講演予稿集. 2013. 20th
佐々木一成, 佐々木一成, 佐々木一成, 佐々木一成, 芳住知勇, 峯松大輔, 吉富寛晃, 三好航太, 瓜生智愛, 花崎雅洋, et al. SOFCの化学的耐久性に関する研究:現状と今後の展望. 電気化学会大会講演要旨集. 2012. 79th
佐々木一成, 佐々木一成, 佐々木一成, 佐々木一成, 吉富寛晃, 三好航太, 花崎雅洋, 西村隆史, 細井貴己, 芳住知勇, et al. SOFCの化学的耐久性に関する研究:現状と将来展望. 電池討論会講演要旨集. 2012. 53rd
佐々木一成, 佐々木一成, 佐々木一成, 佐々木一成, 芳住知勇, 峯松大輔, 吉富寛晃, 三好航太, 瓜生智愛, 花崎雅洋, et al. SOFCの化学的耐久性に関する研究. 燃料電池シンポジウム講演予稿集. 2012. 19th

Patents (30)：

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Books (1)：

Chapters 43 Numerical Analysis of the Optimal Distribution of Hydrogen Filling Stations, in Hydrogen Energy Engineering, A Japanese Perspective
Springer 2016

Professional career (1)：

Committee career (1)：

Awards (1)：

2014/06 - International Association for Hydrogen Energy WHEC Award in World Hydrogen Energy Conference 2014

Association Membership(s) (5)：

日本機械学会 , Electrochemical Society , SOFC研究会 , 日本計算工学会 , 電気化学会

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