プロフィール

卞　志平 BIAN, Zhiping

bianzhiping96(at)gmail.com

居室：北キャンパス電子科学研究所 3F 03-106
TEL : 011-706-9433 / FAX : 011-706-9432
研究キーワード：全固体熱トランジスタ
0000-0002-8958-5783

略歴

Internship, Department of Technology Development, Intel (Dalian Memory Technology & Manufacturing), December 2021 – February 2022
Ph. D. candidate, Graduate School of Information Science and Technology, Hokkaido University, October 2021-present
Master of Engineering, Nuclear Science and Technology, University of Science and Technology of China, September 2018 – June 2021
Bachelor of Materials Chemistry, Dalian Polytechnic University, September 2014 – June 2018

原著論文 (8)

[8] Mitsuki Yoshimura, Qian Yang, Zhiping Bian, and Hiromichi Ohta*, “Significant Reduction in the Switching Time of Solid-State Electrochemical Thermal Transistors”, ACS Appl. Electron. Mater. 5, 4233 (2023). (July 24, 2023) (DOI: 10.1021/acsaelm.3c00512)

[7] Zhiping Bian*, Qian Yang, Mitsuki Yoshimura, Hai Jun Cho, Joonhyuk Lee, Hyoungjeen Jeen, Takashi Endo, Yasutaka Matsuo, and Hiromichi Ohta*, “Solid-State Electrochemical Thermal Transistors with Strontium Cobaltite – Strontium Ferrite Solid Solutions as the Active Layers”, ACS Appl. Mater. Interfaces 15, 23512-23517 (2023). (May 3, 2023) (DOI:10.1021/acsami.3c03660)

[6] Qian Yang, Hai Jun Cho, Zhiping Bian, Mitsuki Yoshimura, Joonhyuk Lee, Hyoungjeen Jeen, Jinghuang Lin, Jiake Wei, Bin Feng, Yuichi Ikuhara, and Hiromichi Ohta*, “Solid-State Electrochemical Thermal Transistors”, Adv. Funct. Mater. 33, 2214939 (2023). (February 21, 2023) (DOI: 10.1002/adfm.202214939) Open Access

[5] Mei Ying Liu, Jun Xi Yu, Xiao Li Zhu, Zhi Ping Bian, Xiang Zhou, Yu Hang Liang, Zhen Lin Luo, Yue Wei Yin, Jiang Yu Li, and Xiang Ming Chen, “Hexagonal Lu_1–xIn_xFeO₃ Room-Temperature Multiferroic Thin Films”, ACS Appl. Mater. Interfaces 14, 52117–52123 (2022). (DOI: 10.1021/acsami.2c11927)

[4] Mei Ying Liu, Tu Lai Sun, Ting Ting Gao, Zhi Ping Bian, Zhen Lin Luo, Xiao Qiang Liu, and Xiang Ming Chen, “Robust room-temperature ferroelectricity and magnetoelectric coupling effect in epitaxial CaTiO₃/SmFeO₃ thin films”, J. Am. Ceram. Soc. 105, 7558-7566 (2022). (DOI: 10.1111/jace.18736)

[3] Zhiping Bian, Jiangtao Zhao, Heng Cao, Yongqi Dong, and Zhenlin Luo, “Reversible Rapid Hydrogen Doping of WO₃ in Non-Acid Solution”, ACS Appl. Mater. Interfaces 13, 13419-13424 (2021). (DOI: 10.1021/acsami.1c01165)

[2] Tao Yu, Bei Deng, Liang Zhou, Pingbo Chen, Qiying Liu, Cailin Wang, Xingkun Ning, Jingtian Zhou, Zhiping Bian, Zhenlin Luo, Chunyin Qiu, Xing-Qiang Shi, and Hongtao He, “Polarity and Spin–Orbit Coupling Induced Strong Interfacial Exchange Coupling: An Asymmetric Charge Transfer in Iridate–Manganite Heterostructure”, ACS Appl. Mater. Interfaces 11, 44837-44843 (2019). (DOI: 10.1021/acsami.9b14641)

[1] Z.P. Bian, D.S. Li, X. Zhao, H. Lin, “Multi-peak emissions of Pr3+-doped heavy metal tellurite glasses for laser-driven illumination”, Radiation Physics and Chemistry 151, 126-132 (2018). (DOI: 10.1016/j.radphyschem.2018.05.029)

学会発表 (17)

[17] Zhiping Bian, Mitsuki Yoshimura, Ahrong Jeong, Haobo Li, Takashi Endo, Yasutaka Matsuo, Yusaku Magari, Hidekazu Tanaka, Hiromichi Ohta, “Solid-State Electrochemical Thermal Transistors with Large Thermal Conductivity Switching Widths”, 2024年第71回応用物理学会春季学術講演会, 東京都市大学世田谷キャンパス,東京, 2024年3月22日-25日.

[16] Zhiping Bian, Mitsuki Yoshimura, Ahrong Jeong, Hiromichi Ohta, “[A4-O202-06] Absence of High On-to-Off Thermal Conductivity Ratio in the La_xSr_1−xCoO_y-based Thermal Transistors”, MRM2023, Kyoto, Japan, December 11-16, 2023. (oral)

[15] Zhiping Bian, Mitsuki Yoshimura, Qian Yang, Hai Jun Cho, Joonhyuk Lee, Hyoungjeen Jeen, Takashi Endo, Yasutaka Matsuo, Hiromichi Ohta, “Solid-State Electrochemical Thermal Transistors with Perovskite Cobalt Oxide-based Solid Solutions as the Active Layers”, The 2023 RIES-CEFMS (Research Institute for Electronic Science – Center for Emergent Functional Matter Science) Joint International Symposium, Rusutsu Resort Hotel and Convention Center, Japan, December 7-8, 2023. (Poster)

[14] Zhiping Bian, Mitsuki Yoshimura, Qian Yang, Hai Jun Cho, Joonhyuk Lee, Hyoungjeen Jeen, Takashi Endo, Yasutaka Matsuo, and Hiromichi Ohta, “Solid-State Electrochemical Thermal Transistors with Perovskite Cobaltate-based Solid Solutions as the Active Layers”, The 24th RIES-HOKUDAI International Symposium 開 [kai], Hokkaido University, Sapporo, Japan, December 6-7, 2023.

[13] Zhiping Bian, Mitsuki Yoshimura, Qian Yang, Hai Jun Cho, Joonhyuk Lee, Hyoungjeen Jeen, Takashi Endo, Yasutaka Matsuo, and Hiromichi Ohta, “Solid-state electrochemical thermal transistors with perovskite cobalt oxide-based solid solutions as the active layers”, The Mini-Workshop on Functional Materials Science (Organizers’ meeting), Sapporo, Japan, December 1-2, 2023. (Poster)

[12] Zhiping Bian, Mitsuki Yoshimura, Qian Yang, Hai Jun Cho, Joonhyuk Lee, Hyoungjeen Jeen, Takashi Endo, Yasutaka Matsuo, and Hiromichi Ohta, “Solid-State Electrochemical Thermal Transistors with Perovskite Cobalt Oxide-based Solid Solutions as the Active Layers”, 29th International Workshop on Oxide Electronics (iWOE29), Busan, Korea, October 15-18, 2023. (Poster)

[11] Zhiping Bian, Mitsuki Yoshimura, Ahrong Jeong, Hiromichi Ohta, “Absence of High On-to-Off Thermal Conductivity Ratio in the La_xSr_1−xCoO_y-based Thermal Transistors”, 第84回応用物理学会秋季学術講演会「イオントロニクスにおける酸化物・カルコゲナイトの新機能」, 熊本城ホールほか3会場, 2023年9月19日-23日

[10] Zhiping Bian, Qian Yang, Mitsuki Yoshimura, Hai Jun Cho, Joonhyuk Lee, Hyoungjeen Jeen, Takashi Endo, Yasutaka Matsuo, and Hiromichi Ohta, “Thermal Conductivity Modulation of SrCoO_y–SrFeO_y Solid Solution in Solid-State Electrochemical Thermal Transistors”, The 4th Workshop on Functional Materials Science (FMS2023), Busan, South Korea, June 18-21, 2023. (poster)

[9] 卞志平，太田裕道, “全固体電気化学熱トランジスタの活性層Ⅱ: SrCoO_x−SrRuO_x固溶体”, 第70回応用物理学会春季学術講演会, 上智大学四谷キャンパス＋オンライン, 2023年3月15日-18日

[8] 卞志平，楊倩，吉村充生，イジュンヤク，ジンヒョンジン, 林景煌, 馮斌, 幾原雄一, ジョヘジュン, 太田裕道, “全固体電気化学熱トランジスタの活性層Ⅰ: SrCoO_x−SrFeO_x固溶体”, “全固体電気化学熱トランジスタ”, 第70回応用物理学会春季学術講演会, 上智大学四谷キャンパス＋オンライン, 2023年3月15日-18日

[7] Zhiping Bian, Qian Yang, Mitsuki Yoshimura, Hai Jun Cho, Hiromichi Ohta, “Solid-state Electrochemical Thermal Transistors using SrCoO_y−SrFeO_y Solid Solutions”, 7th International Conference on Advances in Functional Materials (AFM 2023), Fukuoka, Japan, January 9-12, 2022 (Oral)

[6] Zhiping Bian, Qian Yang, Mitsuki Yoshimura, Joonhyuk Lee, Hyoungjeen Jeen, Jinghuang Lin, Bin Feng, Yuichi Ikuhara, Hai Jun Cho, and Hiromichi Ohta, “Thermal Conductivity Modulation in SrCoO_y – SrFeO_y Solid Solution by Electrochemical Redox Reaction”, The 23rd RIES-Hokudai International Symposium 拓 [Taku], Sapporo, Japan, December 5-6, 2022.

[5] Zhiping Bian, Qian Yang, Mitsuki Yoshimura, Joonhyuk Lee, Hyoungjeen Jeen, Jinghuang Lin, Bin Feng, Yuichi Ikuhara, Hai Jun Cho, and Hiromichi Ohta, “Solid-State Electrochemical Thermal Transistors based on Sr(Co_1−xFe_x)O_y (0 ≤ x ≤ 1, 2 ≤ y ≤ 3) Films as Active Layers”, 薄膜材料デバイス研究会第19回研究集会 in 京都, 龍谷大学響都ホール（京都府京都市）, 2022年11月17日-18日.

[4] Zhiping Bian, Qian Yang, Mitsuki Yoshimura, Joonhyuk Lee, Hyoungjeen Jeen, Jinghuang Lin, Bin Feng, Yuichi Ikuhara, Hai Jun Cho, and Hiromichi Ohta, “Solid-State Electrochemical Thermal Transistors based on Sr(Co_1−xFe_x)O_y (0 ≤ x ≤ 1, 2 ≤ y ≤ 3) Films as Active Layers”, 令和4年度日本セラミックス協会東北北海道支部研究発表会, 伝国の杜（山形県米沢市）, 2022年11月10日-11日.

[3] 卞志平，楊倩，吉村充生，ジョヘジュン, 太田裕道, “SrCoO_x-SrFeO_x固溶体薄膜の電気化学酸化・還元と熱・電子輸送特性”, 2022年第83回応用物理学会秋季学術講演会, 東北大学川内北キャンパス+オンライン, 2022年9月20日-23日

[2] Zhiping Bian, Jiangtao Zhao, Heng Cao, Yongqi Dong, Zhenlin Luo, “Reversible rapid protonation of WO₃ films in non-acid solution”, 2022年第69回応用物理学会春季学術講演会, 青山学院大学相模原キャンパス+Online, March 22-26, 2022 (Oral).

[1] Zhiping Bian, Jiangtao Zhao, Heng Cao, Yongqi Dong, Zhenlin Luo, “Reversible Rapid Hydrogen Doping of WO₃ in Non-Acid Solutions”, The 22nd RIES-HOKUDAI International Symposium 癒 [Yu], Online, December 6-7, 2021 (Poster).

特許 (1)

[1] 太田裕道, 曲勇作, ジョンアロン, 卞志平, 吉村充生, “熱トランジスタ”, 特願2024-018066, 2024年2月8日出願

報道等 (46)

[1]”北大，全固体電気化学熱トランジスタを開発”, Optronics Online, 2023.2.22

[2] “北大、熱伝導率を電気スイッチで切り替え　全固体熱トランジスタ開発”, 日刊工業新聞（電子版）, 2023.2.24

[3] “熱伝導率を制御する全固体電気化学熱トランジスタを作製　北海道大学”, fabcross for エンジニア, 2023.2.24

[4] “北大、実用化可能な全固体電気化学熱トランジスタの作製に成功”, マイナビニュース, 2023.2.24

[5] “北大、実用化可能な全固体電気化学熱トランジスタの作製に成功”, Mapionニュース, 2023.2.24

[6] “熱伝導率を電気スイッチで切り替え、北大が開発「全固体熱トランジスタ」がスゴい”, ニュースイッチ, 2023.2.27

[7] “熱伝導率を電気スイッチで切り替え、北大が開発「全固体熱トランジスタ」がスゴい”, Yahoo!ニュース, 2023.2.27

[8] “熱伝導率を電気スイッチで切り替え、北大が開発「全固体熱トランジスタ」がスゴい”, NEWSPICKS, 2023.2.27

[9] “熱伝導率を電気スイッチで切り替え、北大が開発「全固体熱トランジスタ」がスゴい”, gooニュース, 2023.2.27

[10] “熱伝導率を電気スイッチで切り替え、北大が開発「全固体熱トランジスタ」がスゴい”, dmenuニュース, 2023.2.27

[11] “Solid-state thermal transistor demonstrated”, Science Daily, 2023.2.22

[12] “Solid-state thermal transistor demonstrated”, Nano Werk, 2023.2.22

[13] “Solid-state thermal transistor demonstrated”, EurekAlert!, 2023.2.22

[14] “Solid-state thermal transistor demonstrated”, Bioengineer.org, 2023.2.22

[15] “Scientists develop solid-state electrochemical thermal transistor”, Technewsboy, 2023.2.22

[16] “Scientists Develop Solid-State Electrochemical Thermal Transistor”, NEWS AZI, 2023.2.22

[17] “Scientists develop solid-state electrochemical thermal transistor”, Today Headline, 2023.2.22

[18] “Solid-state thermal transistor demonstrated”, NewsBeezer, 2023.2.22

[19] “Solid-state thermal transistor demonstrated”, VERVE TIMES, 2023.2.22

[20] “Scientists make solid-state thermal transistor”, Compound Semiconductor Magazine, 2023.2.22

[21] “Solid-State Thermal Transistor: The Future of Thermal Management Technology”, AZO MATERIALS, 2023.2.22

[22] “Solid-State Thermal Transistor Demonstrated”, Lab Manager, 2023.2.22

[23] “Solid-State Thermal Transistor Demonstrated”, RealClear Science, 2023.2.22

[24] “Developed Solid State Electrochemical Thermal Transistor”, Optimum Physics, 2023.2.22

[25] “Solid-state thermal transistor demonstrated”, One Eye News, 2023.2.22

[26] “Solid-state thermal transistor demonstrated”, KNOWLEDIA, 2023.2.22

[27] “Solid-state thermal transistor demonstrated”, AlphaGalileo, 2023.2.24

[28] “Solid-State Electrochemical Thermal Transistor Without Using Liquid”, Semiconductor Engineering, 2023.2.24

[29] “Solid-state thermal transistor demonstrated”, Plato Data Intelligence, 2023.2.24

[30] “Scientists develop solid-state electrochemical thermal transistor”, NEWS BREAK, 2023.2.23

[31] “Scientists develop solid-state thermoelectric transistors”, News 7F, 2022.2.23

[32] “Hokkaido University: Solid-State Thermal Transistor Demonstrated”, Targeted News Service, 2023.2.23

[33] “Scientists develop solid-state electrochemical thermal transistor”, Newsbit, 2023.2.22

[34] “Solid-State Thermal Transistor Demonstrated”, Eurasia Review, 2023.2.22

[35] “Scientists develop solid-state electrochemical thermal transistor”, Tech Xplore, 2023.2.22

[36] “Solid-state thermal transistor demonstrated”, asiaresearchnews, 2023.2.21

[37] “Solid-state thermal transistor demonstrated”, Mirage News, 2023.2.21

[38] “Scientists develop solid-state electrochemical thermal transistor”, Techstreet Now, 2023.2.22

[39] “Tranzystor termiczny, jakiego jeszcze nie było. Wykorzystuje się go częściej, niż myślisz”, Chip.pl, 2023.2.22

[40] “Transistor thermique à semi-conducteurs démontré | Alerte Eurek !”, Posts US News, 2023.2.22

[41] “Criado primeiro transstor trmico de estado slido”, Vision Art News, 2023.2.28

[42] “浅析固态热晶体管开启热管理技术新时代”, 电子发烧友, 2023.2.25

[43] “展示了固态热晶体管”, 0XZX, 2023.2.22

[44] “首個固態電化學熱晶體管問世”, 科技日報 2023.2.22

[45] “北大、実用化可能な全固体電気化学熱トランジスタの作製に成功”, Rakuten Infoseek News, 2023.2.24

[46] “北海道大学などが全固体電気化学熱トランジスタ、熱伝導率を電気制御”, 日経クロステック, 2023.3.20

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太田裕道研究室

教職員の所属: 北海道大学電子科学研究所
附属グリーンナノテクノロジー研究センター
薄膜機能材料研究分野
大学院生の所属: 北海道大学大学院情報科学院
情報エレクトロニクスコース
薄膜機能材料研究分野
所在地: 〒001-0020
札幌市北区北20条西10丁目
北海道大学電子科学研究所 3F
TEL 011-706-9428
FAX 011-706-9428

卞 志平 BIAN, Zhiping

略歴