静岡大学：教員データベース

Researcher DataBase - Personal Information : Fu Desheng

Fu Desheng
Professor （Title：Professor)

[ORCID] 0000-0002-3919-2789 [Scopus Author ID] 7201809496

College of Engineering - Division of Electronics and Materials Science

Faculty of Engineering - Department of Electronics and Materials Science Graduate School of Integrated Science and Technology　Department of Engineering - Electronics and Materials Science Course

Graduate School of Science and Technology,Research Division - Research of Nanomaterials

Last updated : 2026/03/20 2:05:12

Basic information on teaching staff

Ph.D. 　Sun Yat-sen University(Zhongshan University) 　 1994/12

Natural Science - Semiconductors, optical properties of condensed matter and atomic physics
Nanotechnology/Materials - Inorganic materials and properties
Nanotechnology/Materials - Applied physical properties

dielectric, piezoelectric, pyroelectric, and ferroelectric materials

Development of Lead-free piezoelectric materials
Searching for new functional oxides
Development of　energy storage dielectric materials
Development of transparent ceramics

ferroelectric, piezoelectric, pryoelectric, oxides, nano-scale characterization, energy storage, transparent　electro-opticc　eramics 　, relaxor

・The Physical Sociaty of Japan
・The Japan Sociaty of Applied Physics
・The Dielectric Society of Japan
・The Ceramic Sociaty of Japan

https://wwp.shizuoka.ac.jp/desheng-fu/

Research information

[1]. Direct Imaging of Temperature Evolution of Polar Nanoregions and Chemically Ordered Regions in PMN Relaxor: Evidence for Polar Phase Percolation
Appl. Phys. Lett. 128/ - (2026) [Refereed] refereed [Internationally co-authored papers] non-internationally co-authored paper
[Lead author or co-author] co-author
[Author] Kohei Hino, Daisuke Morikawa, Desheng Fu, Mitsuru Itoh and Kenji Tsuda,
[2]. Sn-doping effect on dielectric properties of Ba(Ti1−xSnx)O3 studied by X-ray absorption and emission spectroscopies
Appl. Phys. Lett. 127/ - 082903 (2025) [Refereed] refereed [Internationally co-authored papers] non-internationally co-authored paper
[Lead author or co-author] co-author
[Author] Hiroyasu Sakano, Nobuo Nakajima, Shintaro Noda, Eiki Kakihara, Desheng Fu, Yasuhisa Tezuka, and Toshiaki Iwazumi, [DOI]
[3]. Intrinsic piezoelectricity of PZT
ACS Applied Electronic Materials 6/ 6384-6390 (2024) [Refereed] refereed [Internationally co-authored papers] non-internationally co-authored paper
[Lead author or co-author] author
[Author] Desheng Fu, Seiji Sogen, Hisao Suzuki [DOI]
[4]. Fluorination Induced Asymmetry in Vacancy Ordered Brownmillerite: A Route to Multiferroic Behavior
Chemistry of Materials 35/ 991-998 (2023) [Refereed] refereed [Internationally co-authored papers] internationally co-authored paper
[Lead author or co-author] co-author
[Author] Payel Aich, Shreya Das, Shuvajit Halder, Carlo Meneghini, Desheng Fu, Vasudeva Siruguri, Som Kaushik, Mitsuru Itoh, Tanusri Saha-Dasgupta, Sugata Ray [DOI]
[5]. Phase evolution and local piezoelectric response of Sn-doped BaTiO3 Ceramics,
physica status solidi (a) applications and materials science 219/ 2200344-1-2200344-8 2200344 (2022) [Refereed] refereed [Internationally co-authored papers] internationally co-authored paper
[Lead author or co-author] author
[Author] Zuojian Jiang, Jiayan Huang, Renchen Yuan, Ying Jiang, Faqiang Zhang, Juanjuan Xing, Hui Gu, Desheng Fu [DOI]

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[1]. “Photo-Induced Displacive Phase Transition in Two-dimensional MoTe2 from First-Principle Calculations" In Phase Change Materials – Technology and Applications
IntechOpen (London, United Kingdom) （2022）
[Book type]book(research)
[Sole author, co-author, or author and editor] contributor
[Author]Y. Zhang, Y. Xu, Y. Xia, J. Zhang, H. Zhang, and D. Fu [REP page number] 14 [Repository URL]
[2]. Nanoscale Ferroelectric-Multiferroic Materials for Energy Harvesting Applications
Elsevier （2019）
[Book type]book(research)
[Sole author, co-author, or author and editor] joint work
[Author]Hiroki Moriwake, Ayako Konishi, Takafumi Ogawa, Craig AJ Fisher, Akihide Kuwabara, Desheng Fu [REP page number] 137-159 [Repository URL]
[Notes] “First-principles study of the ferroelectric phase of AgNbO3”, Chapter 8 in Nanoscale Ferroelectric-Multiferroic Materials for Energy Harvesting Appl
[3]. Ferroelectric Materials-Synthesis and Characterization
Intech （2015）
[Book type]book(research)
[Sole author, co-author, or author and editor] joint work
[Author]Desheng Fu and Mitsuru Itoh [Repository URL]
[Notes] "Role of Ca off-Centering in Tuning Ferroelectric Phase Transitions in Ba(Zr,Ti)O3 System" Chapter 5 in "Ferroelectric Materials-Synthesis and Charact
[4]. Advances in Ferroelectrics
InTech （2012）
[Book type]book(research)
[Sole author, co-author, or author and editor] joint work
[Author]Desheng Fu,Hiroki Taniguchi,Mitsuru Itoh,Shigeo Mori [Repository URL]
[Notes] "Pb(Mg1/3Nb2/3)O3 (PMN) Relaxor: Dipole Glass or Nano-Domain Ferroelectric ?", Advances in Ferroelectrics, Aimé Peláiz Barranco (Ed.), ISBN: 978-953-
[5]. Ferroelectrics - Material Aspects
InTech （2011）
[Book type]book(educational)
[Sole author, co-author, or author and editor] joint work
[Author]Desheng Fu,Mitsuru Itoh [Repository URL]
[Notes] "Ferroelectricity in Silver Perovskite Oxides", Ferroelectrics - Material Aspects, Mickael Lallart (Ed.), ISBN: 978-953-307-332-3, InTech, Rijeka, Cr

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[1]. Retrieving 3D Polar Textures in Ferroelectrics via Deep Learning of CBED Patterns
The 21st International Microscopy Congress (IMC21) 2026 （2026/9/2） other
[Presenter]Daisuke Morikawa, Kiyou Shibata, Taisei Atsumi, Ziheng Liu, Tianyu Liu, Yuki Koike, Kohei Hino, Mitsuru Itoh, Desheng Fu, Koh Saitoh, Kenji Tsuda
[Notes] ACC Liverpool, UK
[2]. Visualization of Nanoscale Phase Coexistence and Dynamics in PMN Relaxors via 4D-STEM
Twenty-Seventh Congress and General Assembly of the International Union of Crystallography （2026/8/15） other
[Presenter]Daisuke Morikawa, Kohei Hino, Mitsuru Itoh, Desheng Fu, Kenji Tsuda
[Notes] Calgary, Canada
[3]. PMNリラクサーにおける分極ナノ領域の電場応答の可視化
第43回強誘電体会議（2026/6/13） other
[Presenter]190. 森川大輔、古池佑紀、符徳勝、伊藤満、津田健治
[Notes] 京都産業会館、日本誘電体学会
[4]. (Bi1/2A1/2)(Mg1/3Nb2/3)O3 (A=Na or K): A Novel relaxor with linear temperature　dependence of dielectric constant
International workshop on relaxor ferroelectrics （2026/5/27） other
[Presenter]Desheng Fu and Sora Izuchi
[Notes] Himeji, Japan
[5]. Phase-Boundary-Driven Enhancement of (Bi0.5Na0.5)TiO3-Based Piezoelectric Ceramics,
日本セラミックス協会2026年年会（2026/3/4） other
[Presenter]Nadya Mayestika, Fu Desheng
[Notes] 横浜国立大学、日本セラミックス協会

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[1]. 階層的ナノドメインによる非鉛系圧電材料の革新（ 2025/4 ～ 2028/3 ） Grant-in-Aid for Scientific Research (B) leader

[2]. 超高感度新規焦電材料の開発（ 2017/4 ～ 2020/3 ） Grant-in-Aid for Scientific Research (C) leader

[3]. 強誘電体における量子効果による巨大物性制御（ 2010/4 ～ 2013/3 ） Grant-in-Aid for Scientific Research (B) leader

[1]. IOP Outstanding Reviewer Awards 2019 （2020/4)
[Association] IOP publishing
[2]. （2010/9)

[1]. 圧電体素子、及び圧電体素子の製造方法 [Application Number] 特願2022-18208 (2022/11/14) [Patent Number] 特開2024-71242
[2]. 電子・光学用チタン酸バリウム－カルシウム単結晶体材料及び多結晶体材料とその製造方法 [Application Number] 特願2006-352695 (2006/6/1)
[Notes] 特開2008-162828.
[3]. 強誘電体及び絶縁体からなる組成変調型積層体とその製造方法 [Application Number] 2003-312116 (2003/3/1)
[Notes] 公開番号：2005-79562。
[4]. 揮発性元素を含む電子セラミックスの組成緩衝材とその製造方法 [Application Number] 2002-256958 (2002/2/1)
[Notes] 公開番号：2004-91282.
[5]. Composition buffers for electronic ceramics containing volatitle elements and the manufacture method [Application Number] 10/650.670 (2002/2/1)
[Notes] 公開番号：US2004-0115441A.

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[1]. The 16th Japan-China Symposium on Ferroelectric Materials and Their Applications （第16回日中強誘電体応用会議）（2024/7)
[Role at conference, etc.] is leader [Site of conference, etc.] 島根県松江市
[Notes] Vice chair(大会副委員長）

[1]. 第15回日中強誘電体会議大会学術委員、現地実施委員会副委員長（2023/5 - 2023/8 )

Education related information

[1]. Faculty Course 電子物質科学概論II （2025(FY) - second semester )
[2]. Graduate School Course(Master's) 電子物質科学セミナー第二（2025(FY) - first semester )
[3]. Graduate School Course(Master's) 電子物質科学セミナー第一（2025(FY) - full year )
[4]. General Education Course 卒業研究（2025(FY) - full year )
[5]. Faculty Course 新入生セミナー（2025(FY) - first semester )

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2025(FY)
Number of undergraduate students(junior students) 1
Number of undergraduate students(senior students) 2
Number of master's course students : 6
2024(FY)
Number of undergraduate students(senior students) 5
Number of master's course students : 8 Number of doctorate course students (assistant advisor) : 2
2023(FY)
Number of undergraduate students(junior students) 1
Number of undergraduate students(senior students) 3
Number of master's course students : 8
Number of doctorate course students (main advisor) : 0 Number of doctorate course students (assistant advisor) : 2
2022(FY)
Number of undergraduate students(junior students) 3
Number of undergraduate students(senior students) 5
Number of master's course students : 5
Number of doctorate course students (main advisor) : 0 Number of doctorate course students (assistant advisor) : 2
2021(FY)
Number of undergraduate students(junior students) 2
Number of undergraduate students(senior students) 4
Number of master's course students : 3
Number of doctorate course students (main advisor) : 0 Number of doctorate course students (assistant advisor) : 2

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[1]. Best Poster Presentation Award (2022/12)
[Name of student who received the prize] 吉田和人 (Graduate School of Integrated Science and Technology)
[Name of organization that offered the prize] The 14th Japan-China Symposium on Ferroelectric Materials and Their Applications (CJFMA-14)
[2]. Best Poster Presentation Award (2022/12)
[Name of student who received the prize] 宗玄清司 (Graduate School of Integrated Science and Technology)
[Name of organization that offered the prize] The 14th Japan-China Symposium on Ferroelectric Materials and Their Applications (CJFMA-14)
[3]. 日本セラミックス協会秋季シンポジウムセッション賞 (2022/9)
[Name of student who received the prize] 吉田和人 (Graduate School of Integrated Science and Technology)
[Name of organization that offered the prize] 日本セラミックス協会グリーンプロセッシングセッションオーガナイザー
[4]. Poster Award of Excellence (2021/11)
[Name of student who received the prize] 吉田和人 (Graduate School of Integrated Science and Technology)
[Name of organization that offered the prize] ACTSEA 2021（7th International Symposium on Advanced Ceramics and Technology for Sustainable Energy Applications toward a Low Carbon Society）国際会議組織委員会
[5]. 日本物理学会学生優秀発表賞 (2020/10)
[Name of student who received the prize] 柿原瑛樹 (Graduate School of Integrated Science and Technology)
[Name of organization that offered the prize] 日本物理学会

Contributions to society

[1]. newspaper 揭示PZT压电性的本质－解开半个世纪以上未解之谜 (2024/9/11)
[Summary]静冈大学大学院综合科学技术研究科的符德胜教授领导的研究团队，成功揭示了位于MPB相界（变晶相界）附近PZT（锆钛酸铅盐）单晶的本征压电特性。该研究深入探讨了70多年来未解明的PZT压电陶瓷中巨大压电响应的起源，并揭示了在薄膜应用中铁电畴效应等外部效应的重要性。这一发现为铁电压电材料的研究树立了新的标杆，并有望推动压电薄膜在MEMS器件等领域的创新应用发展。该研究成果已被美国化学学会的专业期刊《ACS Applied Electronic Materials》接受，并于2024年8月28日在线发表。
[Notes] 両江科技評論、https://mp.weixin.qq.com/s/nRDBMb21ufoLKIRVMHyVkw
[2]. newspaper 复旦大学张浩及詹义强课题组从18万多种物质中成功预测转换效率高达27.5%的无铅钙钛矿太阳能电池材料 (2021/12/15)
[Summary]復旦大学の張浩準教授らとの共同研究で、27.6％の高い変換効率を示す非鉛有機無機ペロブスカイト太陽電池材料の予測に成功しました。機械学習と第一原理の精密計算の組み合わせにより180038の物質から高い変換効率と熱安定性を有する4つの非鉛ペロブスカイト太陽電池材料を効率よく予測できました。今回の究成果は非鉛有機無機ペロブスカイト太陽電池材料の開発に新たな材料設計方法を示すと同時に、材料開発の新たな展開が期待されます。本研究成果は、Discovery of Lead‐Free Perovskites for High‐Performance Solar Cells via Machine Learning: Ultrabroadband Absorption, Low Radiative Combination, and Enhanced Thermal Conductivities と題して2021/12/14日付でWiley社Advanced Science(IF=16.806)にオンライ公開されました。
[Notes] 「两江科技品论」, URL:https://mp.weixin.qq.com/s/bOcSAvQ1XE-bpUZyJ1YGJg
[3]. other 二维MoTe2中的亚皮秒光致相变 (2020/6/20)
[Notes] 「两江科技品论」, URL:https://mp.weixin.qq.com/s/DmeFsaUVRQpmkx_aJ3FrwA
[4]. newspaper 電場に追随した強誘電体の電子状態のリアルタイム観測に成功　～鉛を使わない環境に優しい強誘電体材料開発に道筋 (2021/3/4)
[Summary]広島大学大学院先進理工系科学研究科の加藤盛也大学院生(博士後期課程1年)、中島伸夫准教授らは、東京工業大学科学技術創成研究院の安井伸太郎助教、同大学物質理工学院の安原颯助教、静岡大学大学院総合科学技術研究科の符徳勝教授、高エネルギー加速器研究機構物質構造科学研究所の足立純一研究機関講師、仁谷浩明助教、武市泰男助教、ラトビア大学のアンドリス・アンスポックス主任研究員らと共同で、チタン酸バリウム薄膜に交流電場をかけた際に引き起こされる電子状態変化のリアルタイム観測に初めて成功しました。物質に電場をかけた際に、物質を構成する原子間の結合がどのように変化するのか、その場観察することは困難でした。放射光 X 線を用いた元素選択的な測定と、高速信号処理が可能な半導体 X 線検出器を組み合わせることにより、この困難を克服し、バリウムイオンとチタンイオンの静電相互作用を実験により初めて明らかにしました。古くから知られているチタン酸バリウムは、人体に有害な鉛を使わない強誘電体として再注目されており、本研究により、この物質を使った材料開発に新たな道筋を見出しました。本研究の成果は、材料学で権威のある雑誌 Acta Materialia に 1 月 21 日付でオンライン掲載されました。
[Notes] https://www.titech.ac.jp/news/2021/049141.html https://www.kek.jp/ja/press/20210301/ https://www.hiroshima-u.ac.jp/news/63393 https://www.shizuoka.
[5]. other Topological quantum phase in 2D MoTe2 induced by light (2020/9/14)
[Notes] NanoWerk, URL:https://www.nanowerk.com/spotlight/spotid=56126.php

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[1]. FMA運営委員（2024/5 ) [Association] 日本誘電体学会
[2]. 創発的研究支援事業事前評価外部専門家（2023/10 - 2025/6 ) [Association] 科学技術振興機構
[Details of activities]事前評価、選考会議等出席
[3]. JSPS審査委員（2020/9 - 2022/9 ) [Association] JSPS
[4]. 物理学会領域10運営委員（2019/4 - 2020/3 ) [Association] 日本物理学会
[5]. JSPS審査委員（2018/9 - 2020/3 ) [Association] JSPS

[1]. スーパーサイエンスハイスクール(SSH)清水東高校の高校生らの本研究室での研究成果は日本物理学会の２次審査により第７１回日本物理学会年会（２０１６年）Jr.セッションで発表した。（2016/3 - 2016/3 )
[2]. 清水東高校スーパーサイエンスハイスクール(SSH)課題研究への指導と協力（2015/9 )

International contributions

[1]. Department of Materials Science, Indian Association for the Cultivation of ScienceのSugata Ray 教授のグループと新規マルチフェロ材料の開発に関する共同研究を行っている。（2017/4 )
[2]. Phyical Review B,Journal of Materials Chemistry A,　Nanotechnology等の国際英文誌査読11回。（2017/1 - 2017/9 )
[3]. 中国科学院上海珪酸塩研究所李国栄教授とPMN-PTリラクサー焦電材料に関する共同研究を行っている（2016/4 )
[4]. Department of Materials Science, Indian Association for the Cultivation of ScienceのSugata Ray 博士のグループと新規マルチフェロ材料の開発に関する共同研究を行っている。（2016/4 )
[5]. Applied Physics: Materials,Journal of Physics and Chemistry,　Nanotechnology, ,Journal of the American Ceramic Society,Materials Chemistry and Physics, Journal of Materials Chemistry C, Journal of Physics: Condensed Maters, The Journal of the Ceramic Society of Japan等の国際英文誌査読21回。（2016/4 - 2017/3 )