KURODA Yoshiyuki

Affiliation

Faculty of Engineering, Division of Materials Science and Chemical Engineering

Job Title

Professor

Date of Birth

1983

Research Fields, Keywords

energy materials, Inorganic synthesis

Mail Address

E-mail address

Related SDGs




写真a

The Best Research Achievement in Research Career 【 display / non-display

The Best Research Achievement in the last 5 years 【 display / non-display

Profile 【 display / non-display

  • 2011.3 Ph.D. (Engineering), Department of Applied Chemistry, Graduate School of Science and Engineering, Waseda University
    2011.4 Researcher, Department of Applied Chemistry, School of Engineering, The University of Tokyo
    2014.4 Assistant Professor, Waseda Institute for Advanced Study, Waseda University
    2017.3 Associate Professor, Graduate School of Engineering, Yokohama National University

Education 【 display / non-display

  • 2008.4
    -
    2011.3

    Waseda University   Department of Applied Chemistry   Doctor Course   Completed

  • 2002.4
    -
    2006.3

    Waseda University   Department of Applied Chemistry   Graduated

  • 2006.4
    -
    2006.3

    Waseda University   Department of Applied Chemistry   Master Course   Completed

Degree 【 display / non-display

  • Doctor of Engineering - Waseda University

  • Master of Engineering - Waseda University

Campus Career 【 display / non-display

  • 2025.4
     
     

    Duty   Yokohama National UniversityFaculty of Engineering   Division of Materials Science and Chemical Engineering   Professor  

  • 2017.3
    -
    2025.3

    Duty   Yokohama National UniversityFaculty of Engineering   Division of Materials Science and Chemical Engineering   Associate Professor  

  • 2025.4
     
     

    Concurrently   Yokohama National UniversityCollege of Engineering Science   Department of Chemistry, Chemical Engineering and Life Science   Professor  

  • 2025.4
     
     

    Concurrently   Yokohama National UniversityGraduate school of Engineering Science   Department of Chemistry, Chemical Engineering and Life Science   Professor  

  • 2025.4
     
     

    Concurrently   Yokohama National UniversityInstitute of Advanced Sciences   Professor  

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External Career 【 display / non-display

  • 2014.4
    -
    2017.2

    Waseda University   Waseda Institute for Advanced Study (WIAS)   Assistant Professor  

  • 2011.4
    -
    2014.3

    The University of Tokyo   Department of Applied Chemistry, School of Engineering   Researcher  

Academic Society Affiliations 【 display / non-display

  • 2017.4
     
     
     

    Hydrogen Energy Systems Society of Japan

  • 2017.1
     
     
     

    電気化学会

  • 2014.11
     
     
     

    日本ゼオライト学会

  • 2008.6
     
     
     

    日本粘土学会

  • 2006.6
     
     
     

    日本セラミックス協会

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Research Areas 【 display / non-display

  • Nanotechnology/Materials / Inorganic compounds and inorganic materials chemistry

 

Books 【 display / non-display

  • ゾル-ゲル法の最新動向

    黒田 義之( Role: Contributor ,  IV.開発動向編第1章ハイブリッド金属水酸化物の開発とイオン交換・自己修復性電極への応用)

    シーエムシー出版  ( ISBN:978-4-7813-1743-4

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    Total pages:436   Language:Japanese Book type:Scholarly book

  • Metal Oxide-Based Nanostructured Electrocatalysts for Fuel Cells, Electrolyzers, and Metal-air Batteries

    Yoshiyuki Kuroda, Shigenori Mitsushima( Role: Joint author ,  Oxygen evolution reaction (OER) at nanostructured metal oxide electrocatalysts in water electrolyzers)

    Elsevier  ( ISBN:978-0-12-818496-7

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    Total pages:268   Responsible for pages:61-81   Language:English Book type:Scholarly book

  • 水素エネルギーの事典

    黒田 義之( Role: Contributor ,  水素の製造法 水電解)

    朝倉書店 

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    Total pages:240   Language:Japanese Book type:Scholarly book

    地球環境保護のため,燃料電池自動車が普及しつつあり,水素ステーションも四大都市圏を中心に続々と設置され始めている。水素への注目が集まる中,日本は水素エネルギーで世界をリードする存在であり,現在専門人材の拡充が求められている。本書は,最新の技術や世界の政策情報を盛り込み,これから水素エネルギー分野の研究を始めようとしている研究者,水素産業に興味がある学生・大学院生からプロフェッショナルまで幅広く活用できる入門書および実用書である

  • Dimensionality Transformation of Layered Materials toward the Design of Functional Nanomaterials

    Yoshiyuki Kuroda( Role: Joint author)

    Pan Stanford Publishing  ( ISBN:9789814774611

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    Total pages:350   Responsible for pages:58   Language:English Book type:Scholarly book

  • Templated Synthesis for Nanostructured Materials

    Yoshiyuki Kuroda, Kazuyuki Kuroda( Role: Joint author)

    ( ISBN:9783527325870

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    Language:English Book type:Scholarly book

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Papers 【 display / non-display

  • Mesoporous hydrogel electrodes with flexible frameworks exhibiting enhanced mass transport for the oxygen evolution reaction

    Nakajima, R; Wago, H; Taniguchi, T; Sasaki, Y; Nishiki, Y; Awaludin, Z; Nakai, T; Kato, A; Mitsushi … Show more authors

    CHEMICAL COMMUNICATIONS   60 ( 18 )   2536 - 2539   2024.2  [Reviewed]

    DOI Web of Science PubMed

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    Language:Japanese   Publishing type:Research paper (scientific journal)   Joint Work  

  • Principles of Self-Repairing Ability of Tripodal Ligand-Stabilized Hybrid Cobalt Hydroxide Nanosheets for Alkaline Water Electrolysis

    Nakajima Ritsuki, Taniguchi Tatsuya, Sasaki Yuta, Nishiki Yoshinori, Awaludin Zaenal, Nakai Takaaki … Show more authors

    CHEMSUSCHEM   16 ( 18 )   2023.7  [Reviewed]

    DOI Web of Science PubMed

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    Language:English   Publishing type:Research paper (scientific journal)   Joint Work  

  • Operando observation of bubble formation and mass transfer overpotential in alkaline water electrolysis

    MISUMI Ryuta, KURODA Yoshiyuki, ARAKI Takuto, MITSUSHIMA

    JAPANESE JOURNAL OF MULTIPHASE FLOW   39 ( 1 )   18 - 25   2025.3

    DOI CiNii Research

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    Language:Japanese   Publishing type:Research paper (scientific journal)   Publisher:THE JAPANESE SOCIETY FOR MULTIPHASE FLOW   Joint Work  

  • Measurement Methods on Electrodes and Electrocatalysts for Water Electrolysis

    MITSUSHIMA Shigenori, IOROI Tsutomu, KURODA Yoshiyuki, NAGASAWA Kensaku, UCHIYAMA Tomoki, ORIKASA Y … Show more authors

    Electrochemistry   advpub ( 0 )   2025

    DOI CiNii Research

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    Language:English   Publishing type:Research paper (scientific journal)   Publisher:公益社団法人 電気化学会   Joint Work  

    <p>Toward decarbonized society with sustainable growth, the use of renewable energy as a primary power source is highly demanded. Water electrolysis is promising to produce hydrogen from renewable energy for energy storage and transportation. In developments of new technologies related to alkaline water electrolysis (AWE) and proton exchange membrane water electrolysis (PEMWE), common measurement techniques are required to compare experimental results fairly among different institutes. In this paper, we introduce common measurement techniques, such as electrochemical half cell and full cell for AWE and PEMWE, evaluation techniques for catalytic activities and durability of catalysts under steady and non-steady operation, advanced synchrotron radiation analysis of catalysts, <i>operando</i> XAFS analysis, and optical observation of gas bubbles in detail, that are recently developed in the project research commissioned by the New Energy and Industrial Technology Development Organization (NEDO).</p>

  • Integration of Multifunctionality in a Colloidal Self-Repairing Catalyst for Alkaline Water Electrolysis to Achieve High Activity and Durability

    Kuroda Yoshiyuki, Mizukoshi Daiji, Yadav Vinay, Taniguchi Tatsuya, Sasaki Yuta, Nishiki Yoshinori, … Show more authors

    Advanced Energy and Sustainability Research   5 ( 11 )   2024.11

    DOI CiNii Research

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    Language:English   Publishing type:Research paper (scientific journal)   Publisher:Wiley-VCH GmbH   Joint Work  

    Self-repairing catalysts are useful for achieving alkaline water electrolyzers with long lifetimes under intermittent operation. However, rational methodologies for designing self-repairing catalysts have not yet been established. Herein, hybrid cobalt hydroxide nanosheets (Co-ns), with a high deposition (repairing) rate, and β-FeOOH nanorods (Fe-nr), with high oxygen evolution reaction (OER) ability, are electrostatically self-assembled into composite catalysts. This strategy is developed to integrate multifunctionality in self-repairing catalysts. Positively charged Co-ns and negatively charged Fe-nr form uniform composites when dispersed in an electrolyte. These composites are electrochemically deposited on a nickel electrode by electrolysis at 800 mA cm−2. Co-ns form a conductive mesoporous assembly of CoOOH nanosheets as a support. Fe-nr are then distributed on the CoOOH nanosheets as active sites for the OER. Because of the high deposition rate of Co-ns, the amount of Fe-nr deposited increases 22 times compared to when Fe-nr is deposited alone, and the OER current density increases 14 times compared to that of Co-ns alone. The composite self-repair catalyst shows the highest activity and durability under an accelerated durability test (ADT), and its degradation rate decreases from 84 μV cycle−1 (Fe-nr only) to 60 μV cycle−1 (composite catalyst) under ADT conditions without repair.

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Review Papers 【 display / non-display

  • Self-Optimizing Electrodes for Water Electrolyzers

    Yoshiyuki Kuroda

    23 ( 2 )   41 - 44   2023.10

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    Authorship:Lead author, Last author, Corresponding author   Language:Japanese   Publishing type:Article, review, commentary, editorial, etc. (scientific journal)   Single Work  

  • ハイブリッド水酸化物を用いたアルカリ水電解用高耐久アノードの開発

    黒田義之

    材料の科学と工学   59 ( 3 )   10 - 13   2022.6

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    Authorship:Lead author, Last author, Corresponding author   Language:Japanese   Publishing type:Article, review, commentary, editorial, etc. (scientific journal)   Single Work  

  • 水電解用電極及び電極触媒に関する測定法

    光島重徳、五百蔵勉、黒田義之、長澤兼作、内山智貴、折笠有基、井上博史、樋口栄次、安東航太、中嶋隆、三角隆太、内本喜晴

    電気化学   90 ( 2 )   136 - 158   2022.6

    DOI

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    Language:Japanese   Publishing type:Article, review, commentary, editorial, etc. (scientific journal)   Single Work  

  • Overview of Water Electrolyzed Hydrogen Production and its Fundamentals

    43 ( 3 )   155 - 159   2022.5

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    Language:Japanese   Publishing type:Article, review, commentary, editorial, etc. (scientific journal)   Single Work  

  • Silica Colloidal Crystals as Novel Mesoporous Silicates with Unique Nanostructures

    Yoshiyuki Kuroda

    Journal of the Society of Inorganic Materials, Japan   25   162 - 167   2018.5  [Reviewed]  [Invited]

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    Language:Japanese   Publishing type:Article, review, commentary, editorial, etc. (scientific journal)   Publisher:The Society of Inorganic Materials, Japan   Single Work  

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Industrial Property Rights 【 display / non-display

  • 電解用電極及びその製造方法

    光島 重徳,黒田 義之,永島 郁男,谷口 達也,錦 善則,加藤 昭博,ジャエナル アワルディン,辻井 文哉,中井 貴章

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    Applicant:デノラ・ペルメレック株式会社,国立大学法人横浜国立大学,川崎重工業株式会社

    Application no:特願2020-505004  Date applied:2019.3.4

    Announcement no:WO2019/172160  Date announced:2019.9.12

    Country of applicant:Domestic  

  • 金属多孔体

    奥野 一樹,東野 孝浩,俵山 博匡,真嶋 正利,増村 春輝,黒田 義之,光島 重徳

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    Applicant:国立大学法人横浜国立大学,住友電気工業株式会社

    Application no:特願2020-502040  Date applied:2018.12.6

    Announcement no:WO2019/163256  Date announced:2019.8.29

    Country of applicant:Domestic  

  • アルカリ水電解用電極の評価方法、アルカリ水電解用電極の製造方法、及びアルカリ水電解用電極

    新納 英明,光島 重徳,黒田 義之,藤井 雄一

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    Applicant:旭化成株式会社,国立大学法人横浜国立大学

    Application no:特願2018-216489  Date applied:2018.11.19

    Announcement no:特開2019-143235  Date announced:2019.8.29

    Country of applicant:Domestic  

  • 電極用担体材料及びその製造方法、電極材料、電極、並びに固体高分子形燃料電池

    石原 顕光,馬 永炳,光島 重徳,松澤 幸一,黒田 義之

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    Applicant:国立大学法人横浜国立大学

    Application no:特願2017-201181  Date applied:2017.10.17

    Announcement no:特開2019-075305  Date announced:2019.5.16

    Country of applicant:Domestic  

Awards 【 display / non-display

  • the Sakka-Aegerter JSST Best Paper Award

    2024   The Journal of Sol-Gel Science and Technology  

    Individual or group name of awards:Yoshiyuki Kuroda, Shohei Takatsu, and Shigenori Mitsushima

  • Journal of The Ceramic Society of Japan,The Editor-in-Chief Award of Distinguished Reviewer

    2020.3   公益社団法人 日本セラミックス協会  

    Individual or group name of awards:黒田 義之

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    査読貢献賞委員⻑表彰(論文誌の2012年以降の累計査読審査数により受賞)

  • Effect of Intercalated Amide Molecules on Interlayer Condensation of Layered Silicate RUB-15

    2019.9    

  • 日本粘土学会平成30年度奨励賞

    2018.9   日本粘土学会   配位化学を活用した層状金属水酸化物の精密構造制御と機能開拓

    Individual or group name of awards:黒田義之

  • 2018年度フロンティア材料研究所学術賞・研究奨励部門

    2018.9   東京工業大学科学技術創成研究院フロンティア材料研究所   層状複水酸化物の自己組織化による固体塩基触媒のナノ構造制御

    Individual or group name of awards:黒田義之

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Grant-in-Aid for Scientific Research 【 display / non-display

  • 電極活物質の時空間制御に基づく自己修復水電解触媒の確立

    2020.4

    科学研究費補助金  Grant-in-Aid for Scientific Research(B)

    Investigator(s):黒田義之

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    Grant type:Competitive

    アルカリ水電解は再生可能エネルギーからクリーンな二次エネルギーである水素を製造するための有望な技術だが、電力変動に伴う電極劣化が深刻である。本研究では、触媒活物質の電極への動的吸着機構を解明し、活用することで、電解液に活物質を加えるだけで劣化部を収縮しながら半永久的に使える自己修復触媒の開発に取り組む。ハイブリッド水酸化物ナノシートは様々な物性を制御可能な新材料であり、これを用いて長寿命、高効率な電解システムを構築する。この様な技術の確立により水素製造の低コスト化を実現し、我が国における再生可能エネルギーの導入促進、水素エネルギーの産業競争力の向上に貢献する。

  • Development of Single-Crystalline Mesoporous Electrode Materials with Both High Electronconductivity and Stability

    2017.4 - 2020.3

    Grant-in-Aid for Scientific Research  Grant-in-Aid for Scientific Research(C)

    Investigator(s):Yoshiyuki Kuroda

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    Grant type:Competitive

  • 無機ホスト-ゲスト系化合物のナノサイズ効果を利用した機能材料の創製

    2014.4 - 2017.3

    科学研究費補助金  Grant-in-Aid for Young Scientists(B)

    Investigator(s):黒田義之

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    Grant type:Competitive

  • 有機溶媒中での酸化還元・水和反応精密制御による金属複酸化物の低温合成法の開発

    2012.4 - 2014.3

    科学研究費補助金  Grant-in-Aid for Research Activity start-up

    Investigator(s):黒田義之

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    Grant type:Competitive

Other external funds procured 【 display / non-display

  • Development of Field-Responsive Nanospace Materials Consisting of Quartz Framework

    2016.10 - 2017.9

    Local Government 

    Investigator(s):Yoshiyuki Kuroda

Presentations 【 display / non-display

  • アルカリ水電解用多孔質隔膜における水素透過度の温度および電解質濃度依存性

    川端 昴、Hassan Ashraf、光島 重徳、黒田 義之

    電気化学会第91回大会  公益社団法人電気化学会

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    Event date: 2024.3

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:名古屋大学 東山キャンパス  

  • トルエン直接電解水素化の電流効率低下の解析

    朝野公太、池上芳、黒田義之、光島重徳

    電気化学会第91回大会  公益社団法人電気化学会

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    Event date: 2024.3

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:名古屋大学 東山キャンパス  

  • Self-repairing anode catalysts for alkaline water electrolysis powered by renewable energy

    Yoshiyuki Kuroda

    New Zealand Hydrogen Symposium  2024.2  GNS Science

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    Event date: 2024.1 - 2024.2

    Language:English   Presentation type:Oral presentation (general)  

    Venue:Wellington, New Zealand  

  • Study on removing gas bubble effect to evaluate activity of powder electrocatalysts for gas evolution reaction

    Yu Takenaga, Kunpeng Li, Yoshiyuki Kuroda, and Shigenori Mitsushima

    2023.11 

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    Event date: 2023.11

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:Osaka Metropolitan University  

  • Structural design of hydrogel electrode anodes for alkaline water electrolysis to discharge gas molecule

    Hiroki Wago, Mitsusima Shigenori, Kuroda Yoshiyuki

    2023.11 

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    Event date: 2023.11

    Language:Japanese   Presentation type:Oral presentation (general)  

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Charge of on-campus class subject 【 display / non-display

  • 2025   Exercise in Advanced Energy Creation F

    Graduate school of Engineering Science

  • 2025   Exercise in Advanced Energy Creation S

    Graduate school of Engineering Science

  • 2025   Exercise in Technology for Energy Creation F

    Graduate school of Engineering Science

  • 2025   Exercise in Technology for Energy Creation S

    Graduate school of Engineering Science

  • 2025   Exercise in Analysis for Energy Creation F

    Graduate school of Engineering Science

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Committee Memberships 【 display / non-display

  • 日本粘土学会

    2021.4  理事

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    Committee type:Academic society 

  • 電気化学会関東支部幹事

    2019.1  幹事

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    Committee type:Academic society 

  • 電気化学会国際交流委員会

    2017.9  委員

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    Committee type:Academic society 

  • 日本セラミックス協会論文誌編集委員会

    2016.3 - 2022.3  委員

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    Committee type:Academic society 

  • 日本セラミックス協会行事企画委員会年会小委員会

    2015.6 - 2021.5  年会主査

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    Committee type:Academic society 

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Media Coverage 【 display / non-display

  • 黒田義之, 井出裕介 "次元制御がもたらす電子機能材料の新展開"

    化学工業日報  2023.3

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    Author:Other