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立命館大学　研究者学術情報データベース English>> TOPページ TOPページ > 中本　トラン （最終更新日 : 2024-02-15 16:29:53） ナカモト　トラン 中本　トラン NAKAMOTO TRANG 所属 理工学部 電気電子工学科 職名 助教 業績 その他所属 プロフィール 学歴 職歴 委員会・協会等 所属学会 資格・免許 研究テーマ 研究概要 研究概要（関連画像） 現在の専門分野 研究 著書 論文 その他 学会発表 その他研究活動 講師・講演 受賞学術賞 科学研究費助成事業 競争的資金等(科研費を除く) 共同・受託研究実績 取得特許 研究高度化推進制度 教育 授業科目 教育活動 社会活動 社会における活動 研究交流希望テーマ その他 研究者からのメッセージ ホームページ メールアドレス 科研費研究者番号 researchmap研究者コード 外部研究者ID その他所属 1. 理工学研究科   学歴 1. 2011/09～2014/09 立命館大学 電気電子工学科 博士課程 修了 2. 2009/09～2011/09 修士課程 │ Science and engineering │ Dongguk University │ 修了 3. 2004/09～2009/09 Electronics and Telecommunication │ Hanoi University of Science and Technology │ 卒業 職歴 1. 2020/04/01 ～ 立命館大学 電気電子工学科 助教 2. 2017/06/01 ～ 2020/03/31 立命館グローバル・イノベーション研究機構 専門研究員 3. 2015/07 ～ 2017/05 タカコ（株） 品質保証員 所属学会 1. 日本電気化学会 研究テーマ 1. Solar cells, Perovskite solar cells, Biofuel cells, Microbial fuel cells, Enzymatic fuel cells, Energy harvesting, DSSC, Photocatalysts, Thermoelectricity. 研究概要 High-performance energy exchange devices and energy harvesting devices Nowadays, energy and environmental crisis have become a severe problem. Sustainable energy resources are believed to become an effective solution for this issue. We are developing high-performance energy exchange and energy harvesting devices with a focus on sustainable materials and methods. Our group is working on various projects, such as biofuel cells (BFCs) and dye-sensitized solar cells (DSSCs). BFCs are electrochemical systems that utilize bacteria to convert chemical energy directly to electricity. Its operation principle is based on sustainable biological processes. We are developing some exciting BFCs, such as floating type, soil-based type, and hybrid type. Also, DSSCs, which can convert sunlight directly to electricity, are actively developed. We focus on improving high-quality photoanode and counter electrode by synthesizing novel but low-cost materials. Quasi-solid and solid DSSCs are also investigated to improve its practicality. With accumulated knowledge and inventions in the fields, our lab is collaborating with companies to promote the introduction of research results to the market. 現在の専門分野 電子デバイス・電子機器 (キーワード：バイオ燃料電池、太陽電池、金属空気電池、再生可能エネルギー、センサー) 著書 1. 2020 “Effective Cathode Catalysts for O2 Reduction Reactions,” in Bioelectrochemical System │ (共著)   論文 1. 2024 Development of a liquid level sensor using a floating microbial fuel cell │ IEEJ Transactions on Electrical and Electronic Engineering │ 19 (3),444-447頁 (共著)   2. 2024 Effectiveness of light scattering layer using mesoporous SiO2-TiO2 core-shell on dye-sensitized solar cells │ IEEJ Transactions on Electrical and Electronic Engineering │ 19 (1),157-159頁 (共著)   3. 2024 Investigation of Rutile and Anatase Mesoporous SiO2@TiO2 Particles in the Scattering Layer of Dye‐Sensitized Solar Cells │ IEEJ Transactions on Electrical and Electronic Engineering │ 19 (2),285-287頁 (共著)   4. 2023/05 Development of low-cost block-shape anodes for practical soil microbial fuel cells │ Energy Reports │ 9 (3),144-150頁 (共著)   5. 2023/05 Enhancement of photocatalytic activity by Z-scheme heterojunction of CaTiO3 nanocuboids and P25 │ Energy Reports │ 9,138-143頁 (共著)   全件表示（56件） 学会発表 1. 2024/02/26 Soil Moisture Content Sensor: Utilizing Bacterial Cells as Living Sensors (10th International Conference on Environment and Renewable Energy (ICERE 2024)) 2. 2024/02/03 Performance Assessment of Co-MnO2/C Cathodic Catalyst in Pipe-Type Microbial Fuel Cells (8th International Conference on Sustainable Energy Engineering (ICSEE 2024)) 3. 2022/11 Development of low-cost block-shape anodes for practical soil microbial fuel cells (3rd International Conference on Power, Energy and Electrical Engineering (PEEE 2022)) 4. 2022/06 Effectiveness of light scattering layer with MP-SiO2@TiO2 core-shell and its ozone treatment in dye-sensitized solar cells (20th International Symposium on Applied Electromagnetics and Mechanics (ISEM 2022)) 5. 2022/06 Improving the output of soil microbial fuel cells with UV ozone-treated buckypaper anodes (20th International Symposium on Applied Electromagnetics and Mechanics (ISEM 2022)) 全件表示（19件） 受賞学術賞 1. 2020/09 the 7th International Conference on Power and Energy Systems Engineering (SPESE 2020) The best paper award 2. 2019/06 7th European Conference on Renewable Energy Systems The best paper award 3. 2014/07 the Asia-Pacific Symposium on Applied Electromagnetics and Mechanics The best student oral presentation award 取得特許 1. フローティングセンサ （2019-199646） 2. 2022 発電装置 （7048076） 3. 2022 発電装置及びその製造方法 （70480077） 4. 2022 発電装置用の電極、及び、発電装置 （7051082） 教育活動 ●作成した教科書、教材 1. 2022/04/01 ～ 電気電子工学実験Iの実験教材 研究者からのメッセージ 1. Let’s protect the earth, that is our only homeThe earth is our only home. We, human beings, are polluting the earth. We may hear somewhere some abstract terms such as "global warming" or "climate change." We may think these problems have yet directly affected our daily life. Actually, these issues have been affecting profoundly to our surrounding environment. Hotter summer, colder winter, stronger storms, more floods, and severe drought around the world are several examples caused by human-induced environmental issues. We should act together to protect our only home before too late. Especially, science and engineering students, who are thought to have one of the best creative minds, should somehow contribute to the development of a sustainable environment. With our cooperation actions, I believe that we can protect the earth and make it to become a comfortable place to live for all future generations and all other species. ホームページ Lab&＃39;s homepage Google Scholar My Citation page © Ritsumeikan Univ. All rights reserved.