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Norikawa, Yutaro
Institute of Advanced Energy (IAE) Assistant Professor
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Last Updated :2025/05/27
Basic Information
Affiliated programs (koza)
Professional Memberships
- From 2020, To Present溶融塩委員会
- From 2022, To PresentThe Electrochemical Society
- From 2017, To PresentThe Surface Finishing Society of Japan
- From 2016, To PresentThe Electrochemical Society of Japan
Academic Degree
ID,URL
ORCID ID
J-Global ID
Researcher number
80899237
researchmap URL
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Last Updated :2025/05/27
Research
Research Interests
Papers
- Relationship between Oxygen Content and Crystal Structure of W Films Electrodeposited in Molten CsF–CsCl–WO3Haochen Wang; Yutaro Norikawa; Toshiyuki NohiraJournal of The Electrochemical Society, 01 Apr. 2025, Peer-reviewed, Corresponding author
- Highly Efficient and Precise Rare-Earth Elements Separation and Recycling Process in Molten SaltHang Hua; Kouji Yasuda; Yutaro Norikawa; Toshiyuki NohiraEngineering, Feb. 2025, Peer-reviewed
- Electrochemical Formation of Si Films by Co-deposition of Si and Zn in Molten KF–KCl–K2SiF6–ZnCl2 SystemsWataru MOTEKI; Yutaro NORIKAWA; Toshiyuki NOHIRAElectrochemistry, 01 Feb. 2025, Peer-reviewed
- Deuterium Isotope Separation using LiCl–KCl–LiH–LiD Molten SaltToranosuke Nago; Yutaro Norikawa; Kenji Harada; Mikito Ueda; Hisayoshi Matsushima; Toshiyuki NohiraECS Advances, 02 Dec. 2024, Peer-reviewed
- Can electrodeposited Ti replace rolled Ti as substrate for the growth of anodic TiO2 nanotube layers?Marcela Sepúlveda; Hanna Sopha; Yutaro Norikawa; Ludek Hromadko; Jhonatan Rodriguez-Pereira; Ondrej Man; Toshiyuki Nohira; Kouji Yasuda; Jan M. MacakElectrochimica Acta, Mar. 2024, Peer-reviewed
- A New Concept of Molten Salt Systems for the Electrodeposition of Si, Ti, and WYutaro Norikawa; Toshiyuki NohiraAccounts of Chemical Research, 04 Jul. 2023, Peer-reviewed, Lead author
- Electrodeposition of Crystalline Si Using a Liquid Ga Electrode in Molten KF–KCl–K2SiF6Wataru Moteki; Yutaro Norikawa; Toshiyuki NohiraJournal of The Electrochemical Society, 01 Aug. 2024, Peer-reviewed
- Electrochemical Synthesis of Diamond in Molten LiCl–KCl–K2CO3–KOHYutaro Norikawa; Yurina Horiba; Kouji Yasuda; Toshiyuki NohiraJournal of The Electrochemical Society, 01 May 2023, Peer-reviewed, Lead author
- Electrodeposition of crystalline Si in molten alkali metal fluoride–chloride mixtures: Comparative study of Li, Na, K, and Cs systemsYutaro Norikawa; Airi Kondo; Kouji Yasuda; Toshiyuki NohiraElectrochimica Acta, Dec. 2022, Peer-reviewed, Lead author, Corresponding author
- Effect of Temperature on Crystal Structure of W Films Electrodeposited from Molten CsF–CsCl–WO3Yutaro Norikawa; Xianduo Meng; Kouji Yasuda; Toshiyuki NohiraJournal of The Electrochemical Society, 01 Oct. 2022, Peer-reviewed, Lead author, Corresponding author
- Effects of Temperature, Ti(III) Ion Concentration, and Current Density on Electrodeposition of Ti Films in LiF–LiCl MeltYutaro Norikawa; Makoto Unoki; Kouji Yasuda; Toshiyuki NohiraJournal of The Electrochemical Society, 01 Sep. 2022, Peer-reviewed, Lead author, Corresponding author
- Silicon Electrodeposition in a Water-Soluble KF–KCl Molten Salt: Properties of Si Films on Graphite SubstratesKouji Yasuda; Tomonori Kato; Yutaro Norikawa; Toshiyuki NohiraJournal of The Electrochemical Society, 01 Nov. 2021, Peer-reviewed
- Electrodeposition of Tungsten from Molten KF–KCl–WO3 and CsF–CsCl–WO3Toshiyuki Nohira; Tatsuya Ide; Xi; uo Meng; Yutaro Norikawa; Kouji YasudaJournal of The Electrochemical Society, 01 Apr. 2021, Peer-reviewed
- Electrodeposition of mirror surface β-W films in molten CsF–CsCl–WO
3 Meng, X.; Norikawa, Y.; Nohira, T.Electrochemistry Communications, 2021, Peer-reviewed - Electrochemical Behavior of Ti(III) Ions in Molten LiF-LiCl: Comparison with the Behavior in Molten KF-KClNorikawa, Y.; Yasuda, K.; Nohira, T.Journal of the Electrochemical Society, 2020, Peer-reviewed, Lead author
- Anodization of electrodeposited titanium films towards TiO
2 nanotube layersSopha, H.; Norikawa, Y.; Motola, M.; Hromadko, L.; Rodriguez-Pereira, J.; Cerny, J.; Nohira, T.; Yasuda, K.; Macak, J.M.Electrochemistry Communications, 2020, Peer-reviewed - In situ synchrotron X-ray diffraction study of the electrochemical reduction of SiO
2 in molten CaCl2 Katasho, Y.; Norikawa, Y.; Yamamoto, T.; Yasuda, K.; Nohira, T.Electrochemistry Communications, 2020, Peer-reviewed - Electrochemical dy-alloying behaviors of inconel and hastelloy in molten LiFcAf
2 DyF3 Watanabe, Y.; Norikawa, Y.; Yasuda, K.; Nohira, T.Materials Transactions, 2019, Peer-reviewed - Optimization of electrolysis conditions for Ti film electrodeposition from water-soluble KF–KCl molten saltsNorikawa, Y.; Yasuda, K.; Nohira, T.Journal of the Electrochemical Society, 2019, Peer-reviewed, Lead author
- Electrochemical behavior of Ti(III) ions in a KF–KCl eutectic meltNorikawa, Y.; Yasuda, K.; Nohira, T.Electrochemistry, 2018, Peer-reviewed, Lead author
- Electrodeposition of titanium in a water-soluble KF-KCl molten saltNorikawa, Y.; Yasuda, K.; Nohira, T.Materials Transactions, 2017, Peer-reviewed, Lead author
Misc.
- 委員会ホームページの溶融塩情報の掲載に関する活動報告安田幸司; 法川勇太郎; 金村祥平; 沼田昴真; 本林健太; 慮鑫; 山本貴之; 関口祐真溶融塩および高温化学, 2025, Invited
- 易水溶性フッ化物–塩化物混合溶融塩中におけるシリコン, チタン, タングステンの電析野平俊之; 法川勇太郎溶融塩および高温化学, 2024, Invited
- フッ化物–塩化物混合溶融塩を用いたチタンおよびタングステンの電析法川勇太郎溶融塩および高温化学, 2023, Invited, Lead author, Corresponding author
- 溶融塩及びイオン液体中での電気化学測定における参照電極の取り扱い法川勇太郎; 山本貴之; 安田幸司; 野平俊之溶融塩および高温化学, 2020, Invited, Lead author
- Fabrication of α-W and β-W Films By Using CsF–CsCl–WO3 Molten Salt: Effect of Oxygen Contents in W FilmsHaochen Wang; Yutaro Norikawa; Toshiyuki NohiraECS Transactions, 27 Sep. 2024, Peer-reviewed
- Electrodeposition of Ti in molten AF–ACl–A3TiF6 (A = Li, Na, K)Yutaro Norikawa; Toshiyuki NohiraECS Transactions, 27 Sep. 2024, Peer-reviewed
- Nuclear magnetic resonance study of Cs adsorption onto clay mineralsTokuda, Y.; Norikawa, Y.; Masai, H.; Ueda, Y.; Nihei, N.; Fujimura, S.; Ono, Y.Radiological Issues for Fukushima{'}s Revitalized Future, 2016, Peer-reviewed
- Electrolytic Separation of Iodine from LiCl–KCl–LiBr–LiI Melt and Recovery of Iodine Gas with CopperYutaro Norikawa; Masatoshi Iizuka; Toshiyuki NohiraECS Transactions, 30 Sep. 2022, Peer-reviewed, Lead author
- Electrodeposition of Crystalline Si Using a Liquid Zn Electrode in Molten KF–KCl–K2SiF6Wataru Moteki; Yutaro Norikawa; Toshiyuki NohiraECS Transactions, 30 Sep. 2022, Peer-reviewed
- Optimization of Electrolysis Conditions for Ti Film Electrodeposition from LiF – LiCl Eutectic Molten SaltMakoto Unoki; Yutaro Norikawa; Kouji Yasuda; Toshiyuki NohiraECS Transactions, 08 Sep. 2020, Peer-reviewed
- Electrodeposition of tungsten from molten KF-KCl-WO3 and CsF-CsCl-WO3T. Nohira; X. Meng; T. Ide; Y. Norikawa; K. YasudaECS Transactions, 2020, Peer-reviewed
- Electrodeposition of silicon with a liquid gallium cathode in molten saltsGeir Martin Haarberg; Tomonori Kato; Yutaro Norikawa; Toshiyuki NohiraECS Transactions, 2019, Peer-reviewed
Presentations
- 高温溶融塩を用いたTi・W・Si・Cの電解析出法川勇太郎第98回マテリアルズ・テーラリング研究会, 01 Aug. 2024, Invited
- フッ化物–塩化物溶融塩中における金属チタン電析法川勇太郎第2回非鉄製錬学web討論会, 15 Jan. 2021, Invited
- 高温溶融塩を電解質に用いた金属チタン電析法川勇太郎電気化学会関西支部・東海支部合同シンポジウム, 19 Sep. 2019, Invited
- フッ化物-塩化物混合溶融塩を用いたチタンおよびタングステンの電析法川勇太郎第211回定例委員会, 15 Jun. 2023, Invited
- Effect of Temperature on the Crystal Structure and Surface Morphology of W Films Electrodeposited from CsF–CsCl Eutectic MeltY. Norikawa; X. Meng; K. Yasuda; T. Nohira241st ECS Meeting, Invited
- Electrodeposition of Si in CsF–CsCl Eutectic MeltY. Norikawa; A. Kondo; K. Yasuda; T. Nohira239th ECS meeting, Invited
Industrial Property Rights
- 特許第7575445号, JP2020041457, チタンめっき用電解質及びチタンめっき用電解質を用いたチタンめっき部材の製造方法境田 英彰; 沼田 昂真; 真嶋 正利; 野平 俊之; 安田 幸司; 法川 勇太郎; 鵜木 亮
- WO2019-171744, JP2019000170, チタンめっき部材の製造方法及びチタンめっき部材沼田 昂真; 真嶋 正利; 粟津 知之; 野平 俊之; 安田 幸司; 法川 勇太郎
- WO2018-096769, JP2017032796, チタンめっき液の製造方法及びチタンめっき製品の製造方法沼田 昂真; 真嶋 正利; 粟津 知之; 小川 光靖; 野平 俊之; 安田 幸司; 法川 勇太郎
- WO2017-159324, JP2017007520, 導電性材料及びその製造方法沼田 昂真; 真嶋 正利; 粟津 知之; 小川 光靖; 野平 俊之; 安田 幸司; 法川 勇太郎
- 特許第6889447号, WO2018-096769, 特願2018-552427, チタンめっき液の製造方法及びチタンめっき製品の製造方法沼田 昂真; 真嶋 正利; 粟津 知之; 小川 光靖; 野平 俊之; 安田 幸司; 法川 勇太郎
- 特許第6802255号, WO2017-159324, 特願2018-505776, 導電性材料及びその製造方法沼田 昂真; 真嶋 正利; 粟津 知之; 小川 光靖; 野平 俊之; 安田 幸司; 法川 勇太郎
- 特許第7086172号, 特願2020-504815, チタンめっき部材の製造方法及びチタンめっき部材沼田 昂真; 真嶋 正利; 粟津 知之; 野平 俊之; 安田 幸司; 法川 勇太郎
External funds: Kakenhi
- Study of the Relationship between Titanium Electrodeposition and Coordination State of Titanium Complex Ions in High-Temperature Molten SaltsGrant-in-Aid for Early-Career ScientistsBasic Section 26050:Material processing and microstructure control-relatedKyoto University法川 勇太郎From 01 Apr. 2022, To 31 Mar. 2025, Grantedチタン;電析;溶融塩;フッ化物-塩化物;電気めっき;錯イオン
- イオンの価数・錯イオンの構造から読み解くチタン電析形状へのフッ化物塩の影響Grant-in-Aid for Early-Career ScientistsBasic Section 26050:Material processing and microstructure control-relatedKyoto University法川 勇太郎From 01 Apr. 2025, To 31 Mar. 2027, Adopted
External funds: others
- 溶融塩チタン電気めっき技術実用化を目指した雰囲気および電解条件の最適化 (2024年度分)経済産業省, 官民による若手研究者発掘支援事業費助成金From 01 Apr. 2024, To 31 Mar. 2025代表
- 溶融塩チタン電気めっき技術実用化を目指した雰囲気および電解条件の最適化経済産業省, 官民による若手研究者発掘支援事業費助成金From 01 Apr. 2022, To 31 Mar. 2027代表
- フッ化物-塩化物溶融塩中の酸化物イオン濃度がβタングステ ン電析に与える影響公益財団法⼈ 池⾕科学技術振興財団, 単年度研究助成From 01 Apr. 2024, To 31 Mar. 2025代表
- フッ化物–塩化物溶融塩中におけるβ-タングステン電析及び電析メカニズムの解明公益財団法人 京都技術科学センター, 2022年度研究開発助成From 01 Apr. 2022, To 31 Mar. 2023代表
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Last Updated :2025/05/27
Academic, Social Contribution
Social Contribution
- 京都大学宇治キャンパス公開 公開ラボLecturer, Logistic support京都大学宇治キャンパス, From 21 Oct. 2023, To 22 Oct. 2023
- 和歌山工業高等専門学校(インターンシップ)Consultant京都大学エネルギー理工学研究所, From 21 Aug. 2023, To 25 Aug. 2023
- 滋賀県立彦根東高等学校見学会Logistic support京都大学エネルギー理工学研究所, From 22 Aug. 2023
- 韓国Chonnam National University見学会Other京都大学エネルギー理工学研究所, From 17 Jan. 2023
- 私立東山中学校見学会Other京都大学エネルギー理工学研究所, From 25 Nov. 2022
- 三重県立上野高等学校見学会Other京都大学エネルギー理工学研究所, From 18 Nov. 2022
- 滋賀県立彦根東高等学校見学会Other京都大学エネルギー理工学研究所, From 20 Aug. 2022
- 東京都立国立高等学校見学会Other京都大学エネルギー理工学研究所, From 02 Aug. 2022
