Miyahara, Yuto(Graduate School of Engineering, Division of Energy and Hydrocarbon Chemistry) | Activity Database on Education and Research, Kyoto University

Miyahara, Yuto

Graduate School of Engineering, Division of Energy and Hydrocarbon Chemistry Assistant Professor

Last Updated :2025/05/02

Basic Information

Faculty

Faculty of Engineering

Academic Degree

修士(工学)(京都大学)

博士(工学)(京都大学)

Academic Resume (Graduate Schools)

京都大学, 大学院工学研究科修士課程物質エネルギー化学専攻, 修了

京都大学, 大学院工学研究科博士後期課程物質エネルギー化学専攻, 修了

Academic Resume (Undergraduate School/Majors)

京都大学, 工学部工業化学科, 卒業

High School

High School
大阪府立天王寺高等学校

Research History

From Apr. 2017, To Present
Kyoto University, Graduate School of Engineering, 助教

ID,URL

J-Global ID
201701007480665533

researchmap URL

https://researchmap.jp/7000019594

Last Updated :2025/05/02

Research

Research Topics, Overview of the research

Research Topics
燃料電池や空気電池など空気中の酸素を使用したエネルギー変換デバイスに必要な電極触媒の創製とその反応機構に関する研究を行っています。

Research Interests

空気電池

電気化学

Research Areas

Manufacturing technology (mechanical, electrical/electronic, chemical engineering), Electronic devices and equipment

Nanotechnology/Materials, Inorganic compounds/materials chemistry

Papers

電極電位・膜電位測定法、定電流充放電測定－電位から熱力学量を決定する－
宮崎晃平; 山本健太郎; 宮原雄人
関西電気化学テキストシリーズ, Jul. 2023

電気化学その場測定～回折法, 分光法, 顕微鏡観察～(その2)
松井雅樹; 折笠有基; 内山智貴; 西直哉; 宮原雄人; 津田哲哉; 乙山美紗恵
関西電気化学テキストシリーズ, Oct. 2022, Peer-reviewed

電気化学その場測定～回折法, 分光法, 顕微鏡観察～(その1)
松井雅樹; 折笠有基; 内山智貴; 西直哉; 宮原雄人; 津田哲哉; 乙山美紗恵
関西電気化学テキストシリーズ, Oct. 2022, Peer-reviewed

Kinetic Insights into Na Ion Transfer at the Carbon‐Based Negative Electrode/Electrolyte Interfaces for Sodium‐Ion Batteries
Shota Tsujimoto; Changhee Lee; Ryoich Nunokawa; Yeji Kim; Yuto Miyahara; Kohei Miyazaki; Takeshi Abe
ChemElectroChem, 29 Jul. 2024

Tracking activity behavior of oxygen evolution reaction on perovskite oxides in alkaline solution via 3-dimensional electrochemical impedance spectroscopy
Yuta Inoue; Yuto Miyahara; Kohei Miyazaki; Changhee Lee; Ryo Sakamoto; Takeshi Abe
Journal of Electroanalytical Chemistry, Jun. 2024

Operando Raman Spectroscopy Insights into the Electrochemical Formation of F-Graphite Intercalation Compounds
Yuta Ito; Changhee Lee; Yuto Miyahara; Kohei Miyazaki; Takeshi Abe
ACS Energy Letters, 12 Mar. 2024

Bifunctional Al₂O₃-Based Artificial Layers on LiNiO₂ Cathodes for High-Energy-Density Aqueous Li-Ion Batteries
Changhee Lee; Jin-Myung Choi; Yuto Miyahara; Il Jeon; Kohei Miyazaki; Takeshi Abe
Chemistry of Materials, 21 Dec. 2023

Effect of Solid Electrolyte Interphase on Sodium-Ion Insertion and Deinsertion in Non-Graphitizable Carbon
Shota Tsujimoto; Changhee Lee; Yuto Miyahara; Kohei Miyazaki; Takeshi Abe
Journal of The Electrochemical Society, 01 Sep. 2023

リチウムイオン電池におけるアラミドセパレータ(ペルヴィオ)の機能
有瀬一郎; 大関朋彰; 宮原雄人; 宮崎晃平; 安部武志
住友化学 : 技術誌, 2022

Insights into the Interlayer Water-Induced Reversible Proton Insertion and Deinsertion in Ruddlesden–Popper Layered Fe Oxides
Shunsuke Tashiro; Yuto Miyahara; Changhee Lee; Hisao Kiuchi; Takeshi Abe; Kohei Miyazaki
Chemistry of Materials, 30 Aug. 2023

Correlation between properties of various carbon defects and electrochemical charge carrier storage mechanisms for use in Li- and Na-based rechargeable batteries
Yuta Ito; Jiayuan Ni; Changhee Lee; Xinli Gao; Yuto Miyahara; Kohei Miyazaki; Takeshi Abe
Chemical Physics Reviews, 05 Jul. 2023

Effect of Surface Structure of Graphite on the Passivation Ability of Solid Electrolyte Interphases
Yoshiho MASUDA; Akane INOO; Yasuyuki KONDO; Yuko YOKOYAMA; Yuto MIYAHARA; Kohei MIYAZAKI; Takeshi ABE
Electrochemistry, 2023
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Solid electrolyte interphase-ization of Mg2+-blocking layers for lithium ions in anode-free rechargeable lithium metal batteries
Danni Yu; Changhee Lee; Wencong Wang; Yuto Miyahara; Kohei Miyazaki; Takeshi Abe
Electrochimica Acta, May 2023

Rechargeable Graphite Fluoride Electrodes Realized by Fluoride Anion Insertion and Deinsertion
Yuta Ito; Changhee Lee; Yuto Miyahara; Shigeaki Yamazaki; Takaya Yamada; Kentaro Hiraga; Takeshi Abe; Kohei Miyazaki
Chemistry of Materials, 19 Sep. 2022

Fluorine‐Doping Strategy To Improve the Surface and Electrochemical Properties of LiNi _0.6 Co _0.2 Mn _0.2 O ₂ Cathodes for Use in Lithium‐Ion Batteries
Wencong Wang; Changhee Lee; Yuto Miyahara; Takeshi Abe; Kohei Miyazaki
ChemElectroChem, 18 Aug. 2022

Electrochemical In Situ/<i>operando</i> Spectroscopy and Microscopy Part 2: Battery Applications
Masaki MATSUI; Yuki ORIKASA; Tomoki UCHIYAMA; Naoya NISHI; Yuto MIYAHARA; Misae OTOYAMA; Tetsuya TSUDA
Electrochemistry, 31 Oct. 2022

Electrochemical In Situ/<i>operando</i> Spectroscopy and Microscopy Part 1: Fundamentals
Masaki MATSUI; Yuki ORIKASA; Tomoki UCHIYAMA; Naoya NISHI; Yuto MIYAHARA; Misae OTOYAMA; Tetsuya TSUDA
Electrochemistry, 31 Oct. 2022

Influence of Tris(trimethylsilyl)phosphite Additive on the Electrochemical Performance of Lithium-ion Batteries Using Thin-film Ni-rich Cathodes
Wencong WANG; Changhee LEE; Yuto MIYAHARA; Takeshi ABE; Kohei MIYAZAKI
Electrochemistry, 2022, Peer-reviewed

Dendrite Growth of Lithium through Separator Using In Situ Measurement Technique
Ichiro Arise; Yuto Miyahara; Kohei Miyazaki; Takeshi Abe
JOURNAL OF THE ELECTROCHEMICAL SOCIETY, Feb. 2022, Peer-reviewed

Functional Role of Aramid Coated Separator for Dendrite Suppression in Lithium-Ion Batteries
Ichiro Arise; Yuto Miyahara; Kohei Miyazaki; Takeshi Abe
JOURNAL OF THE ELECTROCHEMICAL SOCIETY, Jan. 2022, Peer-reviewed

Kinetics of Interfacial Lithium-ion Transfer between a Graphite Negative Electrode and a Li2S-P2S5 Glassy Solid Electrolyte
Danni Yu; Meiqi Huang; Yuto Miyahara; Kohei Miyazaki; Akitoshi Hayashi; Masahiro Tatsumisago; Takeshi Abe; Tomokazu Fukutsuka
ELECTROCHEMISTRY, 2022, Peer-reviewed
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Effects of Solvation Structures on the Co-intercalation Suppression Ability of the Solid Electrolyte Interphase Formed on Graphite Electrodes
Akane Inoo; Tomokazu Fukutsuka; Yuto Miyahara; Yasuyuki Kondo; Yuko Yokoyama; Kohei Miyazaki; Takeshi Abe
Chemistry Letters, 05 Jun. 2022

Influence of Chemical Operation on the Electrocatalytic Activity of Ba_0.5Sr_0.5Co_0.8Fe_0.2O_3−δ for the Oxygen Evolution Reaction
Yuta Inoue; Yuto Miyahara; Kohei Miyazaki; Yasuyuki Kondo; Yuko Yokoyama; Takeshi Abe
Journal of The Electrochemical Society, 01 Jan. 2022

Effects of a Solid Solution Outer Layer of TiO2on the Surface and Electrochemical Properties of LiNi0.6Co0.2Mn0.2O2Cathodes for Lithium-Ion Batteries through the Use of Thin-Film Electrodes
Wencong Wang; Changhee Lee; Danni Yu; Yasuyuki Kondo; Yuto Miyahara; Takeshi Abe; Kohei Miyazaki
ACS Applied Energy Materials, Apr. 2022

Electrochemical properties of Ni-rich LiNi Co Mn O2 materials for use in aqueous lithium-ion batteries: How do they differ from those in non-aqueous systems?
Changhee Lee; Yuto Miyahara; Takeshi Abe; Kohei Miyazaki
Journal of Power Sources, Mar. 2022

Black Phosphorus-Graphite Material Composites with a Low Activation Energy of Interfacial Conductivity
Yuhang JU; Ralph Nicolai NASARA; Changhee LEE; Yuto MIYAHARA; Takeshi ABE; Kohei MIYAZAKI
Electrochemistry, 2022
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Li‐Ion Batteries: Cathode‐Electrolyte‐Interphase Film Formation on a LiNiO 2 Surface in Conventional Aqueous Electrolytes: Simple Method to Improve the Electrochemical Performance of LiNiO 2 Electrodes for Use in Aqueous Li‐Ion Batteries (Adv. Energy Mater. 25/2021)
Changhee Lee; Yuko Yokoyama; Yasuyuki Kondo; Yuto Miyahara; Takeshi Abe; Kohei Miyazaki
Advanced Energy Materials, Jul. 2021

Fluoride Ion-Selective Electrode for Organic Solutions
Yuko Yokoyama; Kenji Kano; Yasuyuki Kondo; Yuto Miyahara; Kohei Miyazaki; Takeshi Abe
Analytical Chemistry, 16 Nov. 2021

Complementary Actions of Tungsten Oxides and Carbon to Catalyze the Redox Reaction of VO2+/VO2+ in Vanadium Redox Flow Batteries
Kento Kimura; Yuto Miyahara; Yasuyuki Kondo; Yuko Yokoyama; Takeshi Abe; Kohei Miyazaki
ChemElectroChem, 14 Sep. 2021

Stabilizing the Nanosurface of LiNiO2 Electrodes by Varying the Electrolyte Concentration: Correlation with Initial Electrochemical Behaviors for Use in Aqueous Li-Ion Batteries
Changhee Lee; Yuko Yokoyama; Yasuyuki Kondo; Yuto Miyahara; Takeshi Abe; Kohei Miyazaki
ACS Applied Materials & Interfaces, 13 Sep. 2021

Sodium/Lithium-Ion Transfer Reaction at the Interface between Low-Crystallized Carbon Nanosphere Electrodes and Organic Electrolytes
Yasuyuki Kondo; Tomokazu Fukutsuka; Yuko Yokoyama; Yuto Miyahara; Kohei Miyazaki; Takeshi Abe
ACS Omega, 27 Jul. 2021
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Alkali-Rich Antiperovskite M(3)FCh (M = Li, Na; Ch = S, Se, Te): The Role of Anions in Phase Stability and Ionic Transport
Susumu Fujii; Shenghan Gao; Cedric Tassel; Tong Zhu; Thibault Broux; Koji Okada; Yuto Miyahara; Akihide Kuwabara; Hiroshi Kageyama
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, Jul. 2021, Peer-reviewed

Alkali Metal Ion Insertion and Extraction on Non-Graphitizable Carbon with Closed Pore Structures
Shota Tsujimoto; Yasuyuki Kondo; Yuko Yokoyama; Yuto Miyahara; Kohei Miyazaki; Takeshi Abe
Journal of The Electrochemical Society, 01 Jul. 2021

Molecular Structural Influence of Glymes on Co-Intercalation Behavior of Solvated Li+ in Graphite Electrodes
Akane Inoo; Tomokazu Fukutsuka; Yuto Miyahara; Yasuyuki Kondo; Yuko Yokoyama; Kohei Miyazaki; Takeshi Abe
Journal of The Electrochemical Society, 01 Jun. 2021

Influence of Concentrations of LiNO3 Aqueous Electrolytes on Initial Electrochemical Properties of LiNiO2 Electrodes
Changhee Lee; Yuko Yokoyama; Yasuyuki Kondo; Yuto Miyahara; Kohei Miyazaki; Takeshi Abe
Chemistry Letters, 05 May 2021

Electrochemical properties of surface-modified hard carbon electrodes for lithium-ion batteries
Ralph Nicolai Nasara; Wen Ma; Shota Tsujimoto; Yuta Inoue; Yuko Yokoyama; Yasuyuki Kondo; Kohei Miyazaki; Yuto Miyahara; Tomokazu Fukutsuka; Shih-kang Lin; Takeshi Abe
Electrochimica Acta, May 2021

Cathode‐Electrolyte‐Interphase Film Formation on a LiNiO 2 Surface in Conventional Aqueous Electrolytes: Simple Method to Improve the Electrochemical Performance of LiNiO 2 Electrodes for Use in Aqueous Li‐Ion Batteries
Changhee Lee; Yuko Yokoyama; Yasuyuki Kondo; Yuto Miyahara; Takeshi Abe; Kohei Miyazaki
Advanced Energy Materials, 26 Apr. 2021

Kinetic properties of sodium-ion transfer at the interface between graphitic materials and organic electrolyte solutions
Yasuyuki Kondo; Tomokazu Fukutsuka; Yuko Yokoyama; Yuto Miyahara; Kohei Miyazaki; Takeshi Abe
Journal of Applied Electrochemistry, Apr. 2021
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Operando analysis of graphite intercalation compounds with fluoride-containing polyatomic anions in aqueous solutions
Yuta Ito; Yuto Miyahara; Yuko Yokoyama; Yasuyuki Kondo; Takeshi Abe; Kohei Miyazaki
Materials Advances, 2021
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Mechanism of the Loss of Capacity of LiNiO2 Electrodes for Use in Aqueous Li-Ion Batteries: Unveiling a Fundamental Cause of Deterioration in an Aqueous Electrolyte through In Situ Raman Observation
Changhee Lee; Yuko Yokoyama; Yasuyuki Kondo; Yuto Miyahara; Takeshi Abe; Kohei Miyazaki
ACS Applied Materials & Interfaces, 16 Dec. 2020

What insertion species is electrochemically intercalated into the LiNiO2 electrode in aqueous solutions?
Changhee Lee; Yuko Yokoyama; Yasuyuki Kondo; Yuto Miyahara; Kohei Miyazaki; Takeshi Abe
Journal of Power Sources, Nov. 2020

Dual-Site Catalysis of Fe-Incorporated Oxychlorides as Oxygen Evolution Electrocatalysts
Yuto Miyahara; Tomokazu Fukutsuka; Takeshi Abe; Kohei Miyazaki
Chemistry of Materials, 13 Oct. 2020

Effect of Electrolyte Additives on Kinetic Parameters of Lithium-ion Transfer Reactions at Electrolyte/Graphite Interface
Akane INOO; Tomokazu FUKUTSUKA; Yuto MIYAHARA; Yasuyuki KONDO; Yuko YOKOYAMA; Kohei MIYAZAKI; Takeshi ABE
Electrochemistry, 05 Sep. 2020
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Charge‐Transfer Kinetics of The Solid‐Electrolyte Interphase on Li 4 Ti 5 O 12 Thin‐Film Electrodes
Ralph Nicolai Nasara; Wen Ma; Yasuyuki Kondo; Kohei Miyazaki; Yuto Miyahara; Tomokazu Fukutsuka; Che‐an Lin; Shih‐kang Lin; Takeshi Abe
ChemSusChem, 21 Aug. 2020

Surface-Modified Li4Ti5O12 in Highly Concentrated Aqueous Solutions for Use in Aqueous Rechargeable Lithium Batteries
Shingo Sakai; Izumi Yamada; Yuto Miyahara; Yasuyuki Kondo; Yuko Yokoyama; Takeshi Abe; Kohei Miyazaki
Journal of The Electrochemical Society, 10 Aug. 2020

Concentrated Sodium Bis(fluorosulfonyl)amide Aqueous Electrolyte Solutions for Electric Double-layer Capacitors
Yasuyuki KONDO; Kohei MIYAZAKI; Yuko YOKOYAMA; Yuto MIYAHARA; Tomokazu FUKUTSUKA; Takeshi ABE
Electrochemistry, 05 May 2020, Peer-reviewed

In Situ Local pH Measurements with Hydrated Iridium Oxide Ring Electrodes in Neutral pH Aqueous Solutions
Yuko Yokoyama; Kohei Miyazaki; Yasuyuki Kondo; Yuto Miyahara; Tomokazu Fukutsuka; Takeshi Abe
Chemistry Letters, Feb. 2020, Peer-reviewed

Lithium-ion Transfer Kinetics through Solid Electrolyte Interphase on Graphite Electrodes
Akane Inoo; Tomokazu Fukutsuka; Yuto Miyahara; Kohei Miyazaki; Takeshi Abe
ELECTROCHEMISTRY, 2020, Peer-reviewed

黒鉛負極／電解液界面でのリチウムイオン移動
福塚友和; 宮原雄人; 宮崎晃平; 安部武志
炭素, 2020, Peer-reviewed

Sodium-ion Intercalation Behavior of Graphitized Carbon Nanospheres Covered with Basal Plane
Yasuyuki Kondo; Tomokazu Fukutsuka; Kohei Miyazaki; Yuto Miyahara; Takeshi Abe
CHEMISTRY LETTERS, Aug. 2019, Peer-reviewed

In Situ Measurement of Local pH at Working Electrodes in Neutral pH Solutions by the Rotating Ring-Disk Electrode Technique
Yuko Yokoyama; Kohei Miyazaki; Yuto Miyahara; Tomokazu Fukutsuka; Takeshi Abe
CHEMELECTROCHEM, Jul. 2019, Peer-reviewed

Electrochemical intercalation of bis(fluorosulfonyl)amide anions into graphite from aqueous solutions
Yasuyuki Kondo; Yuto Miyahara; Tomokazu Fukutsuka; Kohei Miyazaki; Takeshi Abe
ELECTROCHEMISTRY COMMUNICATIONS, Mar. 2019, Peer-reviewed
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Investigation of Electrochemical Sodium-Ion Intercalation Behavior into Graphite-Based Electrodes
Yasuyuki Kondo; Tomokazu Fukutsuka; Kohei Miyazaki; Yuto Miyahara; Takeshi Abe
JOURNAL OF THE ELECTROCHEMICAL SOCIETY, Jan. 2019, Peer-reviewed
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ポーラスアルミナメンブレン中のイオン移動現象
福塚友和; 宮原雄人; 宮崎晃平; 安部武志
表面技術, Jan. 2019, Peer-reviewed

多価カチオン系電池の現状
福塚友和; 宮原雄人; 宮崎晃平; 安部武志
日本エネルギー学会機関誌えねるみくす, Jan. 2018, Peer-reviewed

Strontium cobalt oxychlorides: enhanced electrocatalysts for oxygen reduction and evolution reactions
Yuto Miyahara; Kohei Miyazaki; Tomokazu Fukutsuka; Takeshi Abe
CHEMICAL COMMUNICATIONS, Mar. 2017, Peer-reviewed

亜鉛空気二次電池の課題と展望 (第100回新電池構想部会記念講演会ポストリチウム電池 : 次世代を担う若手研究者の挑戦)
宮崎晃平; 宮原雄人; 福塚友和; 安部武志
新電池構想部会講演会, Jan. 2017, Peer-reviewed

Influence of Surface Orientation on the Catalytic Activities of La0.8Sr0.2CoO3 Crystal Electrodes for Oxygen Reduction and Evolution Reactions
Miyahara Yuto; Miyazaki Kohei; Fukutsuka Tomokazu; Abe Takeshi
Chemelectrochem, 2016, Peer-reviewed

Catalytic Roles of Perovskite Oxides in Electrochemical Oxygen Reactions in Alkaline Media
Miyahara Yuto; Miyazaki Kohei; Fukutsuka Tomokazu; Abe Takeshi
Journal of the Electrochemical Society, 2014, Peer-reviewed

Misc.

Charge-Transfer Kinetics of the Solid–Electrolyte Interphase on Li4Ti5O12 Thin-Film Electrodes
Ralph N. Nasara; Wen Ma; Yasuyuki Kondo; Kohei Miyazaki; Yuto Miyahara; Tomokazu Fukutsuka; Che-an Lin; Shih-kang Lin; Takeshi Abe
ChemSusChem, 21 Aug. 2020

亜鉛空気二次電池の課題と展望
宮崎晃平; 宮原雄人; 福塚友和; 安部武志
電池技術, 2018

Books and Other Publications

ポストリチウムに向けた革新的二次電池の材料開発
宮崎晃平; 宮原雄人; 福塚友和; 安部武志, Joint work, 285-292
株式会社エヌ・ティー・エス, Feb. 2018, Not refereed

External funds: Kakenhi

Research and development of mixed-anion compounds as efficient oxygen evolution electrocatalysts
Grant-in-Aid for Early-Career Scientists
Basic Section 36020:Energy-related chemistry
Kyoto University
Yuto Miyahara
From 01 Apr. 2019, To 31 Mar. 2022, Project Closed
二次電池;水電解;酸素発生触媒;複合アニオン化合物;酸素発生反応;電極触媒;電気化学
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-19K15678/

鉄系層状ペロブスカイトの電気化学挙動解析と水系二次電池正極への展開
Grant-in-Aid for Early-Career Scientists
Basic Section 36020:Energy-related chemistry
Kyoto University
宮原雄人
From 01 Apr. 2022, To 31 Mar. 2024, Granted
正極材料;層状ペロブスカイト;水系二次電池
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-22K14763/

Unravelling the structural rules of antiperovskites and their derivatives
Grant-in-Aid for Scientific Research (B)
Basic Section 26020:Inorganic materials and properties-related
Kyoto University
タッセルセドリック
From 01 Apr. 2022, To 31 Mar. 2027, Granted
逆ペロブスカイト;高圧合成;Perovskite;Antiperovskite;Polyanion;High pressure;New materials;Antiperovskites;Ionic conductivity
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-22H01777/

酸素発生触媒における反応場の定量化が可能なオペランド解析手法の確立
Grant-in-Aid for Scientific Research (B)
Basic Section 36020:Energy-related chemistry
Kyoto University
宮原雄人
From 01 Apr. 2024, To 31 Mar. 2027, Granted
水電解;酸素発生触媒;オペランド計測
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-24K01606/

Unravelling the structural rules of antiperovskites and their derivatives
Grant-in-Aid for Scientific Research (B)
Basic Section 26020:Inorganic materials and properties-related
Kyoto University
タッセルセドリック
From 01 Apr. 2022, To 31 Mar. 2027, Granted
Perovskite;Antiperovskite;Polyanion;High pressure;Antiperovskites;逆ペロブスカイト;高圧合成;New materials;Ionic conductivity
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-23K23045/

Last Updated :2025/05/02

Education

Teaching subject(s)

From 01 Apr. 2024, To 31 Mar. 2025
Electrochemistry
7056, Spring, Faculty of Engineering, 2

From 01 Apr. 2023, To 31 Mar. 2024
Electrochemistry
7056, Spring, Faculty of Engineering, 2

From 01 Apr. 2022, To 31 Mar. 2023
Electrochemistry
7056, Spring, Faculty of Engineering, 2

From Apr. 2019, To Mar. 2020
Energy and Hydrocarbon Chemistry, Adv. I
Spring, 工学研究科

From Apr. 2019, To Mar. 2020
Energy and Hydrocarbon Chemistry, Adv. II
Spring, 工学研究科

From Apr. 2019, To Mar. 2020
Electrochemistry
Spring, 工学部

From Apr. 2020, To Mar. 2021
Fundamental Chemical Experiments
Fall, 全学共通科目

From Apr. 2020, To Mar. 2021
Electrochemistry
Spring, 工学部

From Apr. 2021, To Mar. 2022
Electrochemistry
Spring, 工学部

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