PI, Dr. Shingo TAMESUE

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Favorite things:
Macintosh and other apple products
New Balance shoes


Education
2002–2006 BS. Faculty of Engineering, Kyushu University
(Prof. Dr. Seiji Shinkai)
2006–2008 MS. Graduate School of Engineering, Kyushu University
(Prof. Dr. Seiji Shinkai)
2008–2011 PhD. Graduate School of Science, Osaka University
(Prof. Dr. Akira Harada)

Career
2011–2012 Researcher, RIKEN
(Superviser: Prof. Dr. Takuzo Aida and Prof. Dr. Yasuhiro Ishida)
2013–2017 Assistant Professor, Niigata University
2017–2022 Assistant Professor (PI), Utsunomiya University
2022– Associate Professor (PI), Utsunomiya University

Career in foreign countries
2021 Visiting Professor, ESPCI Paris (France)

Publications
(1) Kohei Fukai, Nanami Kuruma, Shingo Tamesue,* in preparation.

(2) Hina Onozaki, HUYNH NGOC DAN PHUONG, Sana Maruoka, Nanami Kuruma, Shingo Tamesue,* in preparation.

(3) Development of a Self-Healing Gel with Self-Healing Kinetics That Can Be Controlled by Heat.
Rikuto Saito, Shingo Tamesue,*
gels 2024, 10(6), 410. (Open Access)

(4) Indirect Adhesion of Hydrogels via the Radical Polymerization Mediated by N,N,N′,N′-Tetramethylethylenediamine and Ammonium Persulfate.
Risa Okada, Shingo Tamesue,*
ACS Applied Polymer Materials 2024, 6 (2), 1268–1275.
(# Highlighted as Supplementary Cover !)


(5) Development of an Adhesive Gel System for Changing the Structure and Properties of Its Adhesive Joint via Reactions with Amine Molecules after Adhesion.
Fumiya Tsurumaki, Ami Sato, Kohei Fukai, Sana Maruoka, Shingo Tamesue,*
ACS Applied Materials & Interfaces, 2023, 15 (27), 32852–32862.
(# Highlighted as Supplementary Cover !)



(6) Preparation and Permeation Properties of a pH-Responsive Polyacrylic Acid Coated Porous Alumina Membrane.
Takafumi Sato,* Kotomi Makino, Shingo Tamesue, Gakuto Ishiura, Naotsugu Ito
Membranes, 2023, 13 (1), 82.

(7) Adhesive Gel System Growable by Reversible Addition-Fragmentation Chain Transfer (RAFT) Polymerization.
Yuma Ueno, Hayato Nakazaki, Hina Onozaki, Shingo Tamesue,*
ACS Applied Polymer Materials, 2023, 5 (1), 983–990.

(8) Salinity Durable Self-Healing Hydrogels as Functional Biomimetic Systems Based on the Intercalation of Polymer Ions into Mica.
Shingo Tamesue,* Yushin Saito, Riki Toita
Polymer, 2021, 228, 123870.

(9) Synthesis of boronophenylalanine-like aza-amino acids for boron-containing azapeptide precursors.
Kouta Miyata, Airi Narita, Ryota Fujisawa, Makoto Roppongi, Satoshi Ito, Shingo Tamesue, Toru Oba
Tetrahedron Letters, 2020, 61 (49), 152585.

(10) Sewing Hydrogels: Adhesion of Hydrogels Utilizing in Situ Polymerization of Linear Polymers inside Gel Networks.
Shingo Tamesue,* Takuo Endo, Yuma Ueno, Fumiya Tsurumaki
Macromolecules, 2019, 52 (15), 5690-5697.
(#Highlighted in C&EN News as an important research, C&EN News, Vol. 92, Issue. 97)
(#Highlighted in ACS Axial as an important research)
(#Highlighted in ACS Insight Japan (November) as an important research)
(#Highlighted in 化学と工業 as an important research, 化学と工業, Vol. 72, Issue. 11)
(#Highlighted in 高分子4月号 as an important research, 高分子, Vol. 4)

(11) Adhesive Hydrogel System Based On the Intercalation of Anionic Substituents into Layered Double Hydroxides.
Shingo Tamesue,* Kento Yasuda, Takuo Endo,
ACS Applied Materials & Interfaces, 2018, 10 (35), 29925-29932.

(12) Reversing Redox Responsiveness of Hydrogels Due to Supramolecular Interactions by Utilizing Double-Network Structures.
Shingo Tamesue,* Shingo Noguchi, Yuko Kimura, Takuo Endo,
ACS Applied Materials & Interfaces, 2018, 10 (32), 27381-27390.

(13) Logic Gate Aggregation of Poly(N-isopropylacrylamide) Nanogels with Catechol Substituents that Respond to Body Temperature Heat
Shingo Tamesue,* Shinji Abe, Takuo Endo, Takeshi Yamauchi,
Polymer Journal, 2018, 50, 503-510.
(Selected as a highlighted article)

(14) A Novel Grafting of Polymers onto the Surface of Graphene Oxide.
Norio Tsubokawa, Takeshi Yamauchi, Kazuhiro Fujiki, Shingo Tamesue,
Graphene Materials-Structure, Properties and Modifications, InTech, 2017, Chapterl.

(15) Preparation and Properties of Oligomeric Siloxane-Grafted Silica Nanoparticles in a Dry Surface Treatment System.
Kenji Takai, Mitsuharu Matsuzawa, Shingo Tamesue, Takeshi Yamauchi, and Norio Tsubokawa,
Journal of the Japan Society of Colour Material, 2016, 89, 287-293.

(16) Synthesis of Monodisperse Hydrophobic Silicone Particles in the Submicron Size.
Kenji Takai, Mitsuharu Matsuzawa, Shingo Tamesue, Takeshi Yamauchi, and Norio Tsubokawa,
Journal of the Japan Society of Colour Material, 2016, 89, 107-112.

(17) Highly tolerant and durable adhesion between hydrogels utilizing intercalation of cationic substituents into layered inorganic compounds.
Shingo Tamesue,* Kento Yasuda, Shingo Noguchi, Tetsu Mitsumata, and Takeshi Yamauchi
ACS Macro Letters, 2016, 5, 704-708.

(18) Fabrication of a poly (dimethylsiloxane) microstructured surface imprinted from patterned silicon wafer with a self-cleaning property.
Shingo Tamesue,* Eri Takahashi, Kazuhiro Fukami, Tetsu Mitsumata, Norio Tsubokawa, and Takeshi Yamauchi
Polymer Journal, 2016, 48, 835-837.

(19) Photoelectric properties of C60-poly(ethylene glycol) and poly(3,4-ethylenedioxythiophene) composite gel prepared via a low-temperature organic-solvent process.
Huiqiu Zhang, Masaru Ichinose, Hideaki Takahashi, Shingo Tamesue, Tetsu Mitsumata, Norio Tsubokawa, Masayuki Yagi, Hidetoshi Kobayashi and Takeshi Yamauchi
Polymer Journal 2016, 48, 163-168.
(Selected as highlighted research)

(20) Various Actuating Motions of Conducting Polymers Actuators on Inorganic Conductive Substrate Formed from Polypyrrole and Gold.
Shingo Tamesue,* Genki Endo, Ryota Ishizaki, Tetsu Mitsumata, Norio Tsubokawa, and Takeshi Yamauchi,
Chemistry Letters 2015, 44, 1700-1702.

(21) Preparation of poly(N-isopropylacrylamide)-terminated carbon nanotubes and determining their aggregation properties in response to infrared light and heating.
Shingo Tamesue,* Suguru Hasegawa, Ryota Ishizaki, Kumi Hashimoto, Tetsu Mitsumata, Norio Tsubokawa, and Takeshi Yamauchi
Polymer Journal 2015, 47, 709-712.

(22) Photo‐triggered microgel aggregation using o‐nitrobenzaldehyde as aggregating power source.
Shingo Tamesue,* Shinji Abe, Kumi Hashimoto, Tetsu Mitsumata, Norio Tsubokawa, and Takeshi Yamauchi
Journal of Polymer Science Part A: Polymer Chemistry 2016, 54, 1317-1322.

(23) Preparation of porous poly (pyrrole) utilizing agar particles as soft template and evaluation of its actuation property
Kentaro Obata, Shingo Tamesue, Kumi Hashimoto, Tetsu Mitsumata, Norio Tsubokawa, and Takeshi Yamauchi
Macromolecular Materials and Engineering 2015, 300, 766-771.

(24) Nonmagnetic particles enhance magnetoelastic response of magnetic elastomers
Kazushi Nagashima, Shunta Kanauchi, Tetsu Mitsumata, Shingo Tamesue, and Takeshi Yamauchi
Journal of Applied Physics 2015, 118, 024903-024909.

(25) Easy preparation of graphene-based conducting polymer composite via organogel
Rie Yamazaki Kuwahara, Takashi Oi, Kumi Hashimoto, Shingo Tamesue, Takeshi Yamauchi, and Norio Tsubokawa
Colloid and Polymer Science 2015, 293, 1635-1645.

(26) Easy preparation and characterization of conducting polymer-low molecular weight organogel system
Rie Yamazaki Kuwahara, Hodaka Yamagishi, Kumi Hashimoto, Shingo Tamesue, Takeshi Yamauchi, and Norio Tsubokawa
Polymer 2015, 61, 99-107.

(27) Grafting of polymers onto graphene oxide by cationic and anionic polymerization initiated by the surface-initiating groups
Kazuhiro Nagata, Takashi Kawahara, Kumi Hashimoto, Kazuo Fujiki, Shingo Tamesue, Takeshi Yamauchi, and Norio Tsubokawa
Composite Interfaces, 2015, 22, 25-37

(28) Effect of plasticizer on the magnetoelastic behavior for magnetic polyurethane elastomers
Yukio Kimura, Shunta Kanauchi, Mika Kawai, Tetsu Mitsumata, Shingo Tamesue, and Takeshi Yamauchi
Chemistry Letters 2015, 44, 177-178.

(29) バイオTRIZを活用した酵素複合導電性高分子の作製とバイオセンサへの応用
山内健, 網田英里子, 幸田貴司, 為末真吾, 三俣哲, 坪川紀夫, 小林秀敏
材料試験技術, 2015, 60, 159-163.

(30) Enhanced magnetoelastic behavior of magnetic elastomers with layered structure
Tsubasa Oguro, Shunta Kanauchi, Tetsu Mitsumata, Shingo Tamesue, and Takeshi Yamauchi
Chemistry Letters, 2014, 43, 1885-1886.

(31) Intercalation of Capsaicin into Layered Double Hydroxide and Their Bio-repellent Properties.
Yoshiaki Nakajima, Yoshio Muraoka, Takashi Kawahara, Kumi Hashimoto, Shingo Tamesue, Takeshi Yamauchi, and Norio Tsubokawa
Journal of the JIME, 2014, 49, 99-104

(32) Grafting of polymers onto graphene oxide by trapping of polymer radicals and ligand-exchange reaction of polymers bearing ferrocene moieties
Ino Cha, Yusuke Yagi, Takashi Kawahara, Kumi Hashimoto, Kazuhiro Fujiki, Shingo Tamesue, Takeshi Yamauchi, and Norio Tsubokawa
Colloids and Surfaces A, Physicochem. Eng. Aspects, 2014, 441, 478-480

(33) High water content clay–nanocomposite hydrogels incorporating guanidinium‐pendant methacrylamide: Tuning of mechanical and swelling properties by supramolecular approach
Linlin Wu, Masataka Ohtani, Shingo Tamesue, Yasuhiro Ishida, and Takuzo Aida
Journal of Polymer Science, Part A: Polymer Chemistry, 2014, 52. 839-847.

(34) Linear versus dendritic molecular binders for hydrogel network formation with clay nanosheets: studies with ABA triblock copolyethers carrying guanidinium ion pendants
Shingo Tamesue, Masataka Ohtani, Kuniyo Yamada, Yasuhiro Ishida, Jason M. Spruell, Nathaniel A. Lynd, Craig J. Hawker, and Takuzo Aida
Journal of the American Chemical Society, 2013, 135, 15650-15655
(over 150 times of citation)

(35) pH and Sugar Responsive Host Polymer Hydrogels Designed Based on Sugar and Boronic Acid Interaction
Shingo Tamesue, Munenori Numata, and Seiji Shinkai
Chemistry Letters, 2011, 40, 1303-1305
(TOP 2nd Accessed Article at Dec, 2011)

(36) Photocontrollable supramolecular materials formed by cyclodextrins and azobenzene polymers
Shingo Tamesue, Yoshinori Takashima, Hiroyasu Yamaguchi, Seiji Shinkai and Akira Harada
Kobunshi Ronbunshu, 2011, 68, 669-678

(37) Photochemically Controlled Supramolecular Curdlan/Single‐Walled Carbon Nanotube Composite Gel: Preparation of Molecular Distaff by Cyclodextrin Modified Curdlan and Phase Transition Control
Shingo Tamesue, Yoshinori Takashima, Hiroyasu Yamaguchi, Seiji Shinkai and Akira Harada
European Journal of Organic Chemistry, 2011, 15, 2801-2806

(38) Photoswitchable supramolecular hydrogels formed by cyclodextrins and azobenzene polymers
Shingo Tamesue, Yoshinori Takashima, Hiroyasu Yamaguchi, Seiji Shinkai and Akira Harada
Angewandte Chemie, 2010, 122, 7623-7626,
Angewandte Chemie International Edition, 2010, 49, 7461-7464
(Highlighted by Nature Asia Materials, over 450 times of citation)

(39) Hierarchical carbon nanotube assemblies created by sugar–boric or boronic acid interactions
Shingo Tamesue, Munenori Numata, Kenji Kaneko,Tony D. James and Seiji Shinkai
Chemical Communications, 2008, 4478-4480

(40) β-1, 3-glucan schizophyllan can act as a one-dimensional host to arrange icosahedral carboranes
Munenori Numata#, Shingo Tamesue#, Takeshi Nagasaki, Kazuo Sakurai and Seiji Shinkai
Chemistry Letters, 2007, 36, 668-669
(#: Co-first author)

(41) β-1, 3-Glucan polysaccharide (schizophyllan) acting as a one-dimensional host for creating supramolecular dye assemblies.
Munenori Numata#, Shingo Tamesue#, Tomohisa Fujisawa, Shuichi Haraguchi, Teruaki Hasegawa, Ah-Hyun Bae, Chun Li, Kazuo Sakurai and Seiji Shinkai
Organic Letters, 2006, 8, 5533-5536.
(#: Co-first author)

Books
(1) 「層状無機化合物を用いた自己修復材料」、技術資料、塗装工学、JCOT一般社団法人日本塗装技術協会、為末真吾、1月号、pp24-30, 2022.
(2) 自己修復材料:自己組織化、形状記憶材料の開発と応用事例「物質内への超分子結合の組込みによる自己修復マテリアルの開発」、
為末真吾, 2020, 技術情報協会出版社.
(3) Contribution chapter ‘Chapter 5: NMR of Supramolecular Gels’, NMR and MRI of Gel, published by The Royal Society of Chemistry (RSC) publishing, 2020, pp174-199.
Shingo Tamesue, 8th July, 2020.
(4) 注目の論文, 月刊「化学」3月号, pp61-62, 2020.
(5) 次世代のポリマー・高分子開発,新しい用途展開と将来展望「超分子的な相互作用を高分子の構造内に組み込むソフトマテリアル」の設計とその応用展開、今後の可能性」
為末真吾, 2019, 技術情報協会出版社.
(6) Supramolecular wrapping by beta-(1-3)-D-glucans toward polysaccharide-based functional materials
Munenori Numata, Kouta Sugikawa, Shuichi Haraguchi, Tomohiro Shiraki, Shun-ichi Tamaru, Shingo Tamesue, and Seiji Shinkai, 2017, Nova Science Publishers, Inc.

Awards
(Internal Award)
(1) 65th Network Polymer Conference
Best Presentation Award, 2015
(2) Utsunomiya University Research Award, 2020

(International Award)
(1) International Conference on Science and Technology of Synthetic Metals 2010 (ICSM 2010)
Young Researcher Poster Award, 2010
(2) Asia Pacific Society for Materials Research 2019 Annual Meeting (APSMR2019 Annual Meeting)
Award for outstanding research achievement and APSMR2019 Annual Meeting Invited Presentation, 2019

(Educational Award)
(1) 宇都宮大学ベストレクチャー賞 2019

Funds
(JSPS)
2020-2022 科研費 基盤C(研究代表)
2017-2019 科研費 若手B(研究代表)
2015-2016 科研費 若手B(研究代表)
2008-2011 JSPS特別研究員奨励費 DC1 (研究代表)

(Foundations)
2019 公益財団法人泉科学技術振興財団 研究助成(研究代表)
2019 公益財団法人マツダ財団 マツダ研究助成(研究代表)
2017 松籟科学振興財団 研究助成(研究代表)
2016 矢崎科学技術振興財団 国際交流助成(研究代表)
2015 日揮・実吉科学振興財団 研究助成(研究代表)
2015 佐々木環境財団 研究助成(研究代表)
2015 永井エヌ・エス知覚科学振興財団(研究代表)
2015 山口育英奨学会 研究助成(研究代表)
2015 新潟工学振興会(研究代表)
2013 ユニオンツール(研究代表)
2013 内田エネルギー財団(研究代表)
その他、2013- 企業との共同研究費など

(学内)
2020 宇都宮大学海外派遣事業助成金

Reach Out
(サイエンス普及活動)
(1) 2018年4月7日 公開講座「さくらフェスタ:サイエンスカフェ」に参加、講演。
(2) 2019年2月11日 宇都宮大学グローバルサイエンスキャンパス(iP-U)「研究倫理ワークショップ」サポート。
(3) 2019年10月10日 出前授業(栃木高校)。
(4) 2019年11月16日 一日体験化学教室にて教室を実施。

Seminar
自己修復材料、超分子材料に関するセミナーに講師として参加。

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