POLYMER CHEMISTRY LAB at U. Fukui

福井大学　物質・生命化学科　高分子化学研究室

Polymer chemistry lab at University of Fukui has been working on pioneering research across the entire spectrum of polymer science from chemical synthesis to physical characterization with the aim at developing a new class of polymer materials with their practical applications. Our group is currently led by three staffs (Prof. Yasushi Maeda; Prof. Shinji Sugihara; Asst. Prof. Atsushi Matsumoto) with the following key areas of research interest:

福井大学物質・生命化学科の高分子化学研究室では，高分子の合成から物理的評価まで高分子科学のあらゆる分野にわたり先駆的な研究を展開し，新しい高分子材料の開発を目指して日々研究を行っています。現在，本研究室は前田寧教授，杉原伸治教授，松本篤講師の3名のスタッフによって運営，以下の主要な研究分野に注力しています。

Development of novel precision polymerization technique　新しい精密重合方法の開発
Polymerization-induced self-assembly (PISA)　重合誘起自己組織化
Spectroscopic analysis of stimuli-responsive polymers　刺激応答性高分子の分光学的解析
Development of novel Raman/IR spectroscopy techniques　新しい赤外／ラマン分光法の開発
Polymer rheology　高分子レオロジー
Suspension rheology　懸濁液のレオロジー
Microrheology　マイクロレオロジー

Our group has expertise in both polymer chemistry and polymer physics at the same research group. Based on our complementary research outcomes, we aim at clarifying the molecular mechanism that governs the performance of polymer-based materials, and developing outstanding technologies for applications in, for example, biotechnology and energy storage. Please visit our "RESERCH" page to have a in-depth look at our research topics. We are also pleased to participate in collaborative projects with research groups from many other institutions.

私たちの研究室は，高分子化学と高分子物理の両分野に専門性を有し，同一の研究グループ内で学際的な研究を展開しています。互いに補完し合う研究成果に基づき，高分子の機能を支配する分子メカニズムを解明するとともに，バイオテクノロジーや電池分野などへの応用を目指した卓越した技術の開発に取り組んでいます。研究テーマの詳細については，ぜひ「RESEARCH」ページをご覧ください。また，私たちは他機関の研究グループとの共同研究にも積極的に取り組んでいます。

GROUP NEWS

2025/08/22

Our manuscript has been accepted for publication in Macromolecules.

H. Izutsu, A. Matsumoto, O. Urakawa, T. Inoue,

"Swelling Behavior and Ionic Conductivity for Polymerized Ionic Liquid Gels".

2025/10/14 - 10/16

Our students will give oral and poster presentations at 第73回レオロジー討論会. Please visit at the following presentation sites!!

P70 セルロースナノファイバー懸濁液の非線形粘弾性精密解析

1D05 溶媒誘電率が高分子電解質の対イオン解離度に与える影響

3D11 Microrheological Analysis of Aqueous Salt-Free Polyelectrolyte Solutions in the Semidilute Entangled Regime

2025/9/16 - 9/18

Our students will give oral and poster presentations at 第74回高分子討論会. Please visit at the following presentation sites!!

2D20 サルファーフリーPhotoiniferter／RAFT剤の合成と制御ラジカル重合

3J04 拡散波分光法を用いた高分子電解質準希薄絡み合い溶液粘弾性のスケーリング解析

1Pf008 非ベンゼン系芳香族トロポロン誘導体によるサルファーフリーPhoto-Iniferter RAFT重合

1Pb034 高分子電解質の対イオン解離度と溶媒誘電率の関係

3Pb074 セルロースナノファイバ－分散液の線形粘弾性精密解析

2025/08/15

Our manuscript has been accepted for publication in Polymer Journal.

A. Matsumoto, I. Kato, C. Zhang, S. Sugihara, Y. Maeda, F. Scheffold, and A. Q. Shen, "Microrheological study on the entanglement dynamics of salt-free polyelectrolyte solutions in the semidilute entangled regime".

2025/06/06

Our manuscript has been accepted for publication in Polymer Chemistry.

S. Sugihara, A. Endo, K. Raje, A. Matsumoto, S. Fujita, Y. Maeda, "Design and Synthesis of Thermoresponsive Degradable Copolymers: Integrating Hydroxy-Functional Vinyl Ethers with Cyclic Ketene Acetals".

2025/05/15

Dr. Atsushi Matsumoto has been awarded for SRJ Young Researcher Award for 2025.

LINKS

Page updated

Google Sites

Report abuse