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Atsuomi Shundo Last modified date:2022.11.07

Associate Professor / Advanced Polymer Chemistry
Faculty of Engineering


Graduate School
Department of Automotive Science
Graduate School of Integrated Frontier Sciences
Undergraduate School
Department of Materials Science and Engineering
School of Engineering


Homepage
https://kyushu-u.pure.elsevier.com/en/persons/atsuomi-shundo
 Reseacher Profiling Tool Kyushu University Pure
Academic Degree
Ph.D
Field of Specialization
Supramolecular Chemistry, Polymer Chemistry
Research
Research Interests
  • Study on Hierarchical Heterogeneity and Fracture behavior of Glassy Network Systems
    keyword : Particle Tracking, Dynamic Heterogeneity, Segmental Motions
    2020.04~2022.03.
  • Study on Supramolecular Polymeric Materials and Dynamic Interfacial Structure
    keyword : Chirality
    2011.04~2021.03.
  • Study on Time and Spatial Heterogeneity in Soft Materials
    keyword : Optical Tweezers, Particle Tracking
    2010.04~2022.03.
Academic Activities
Papers
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1. Atsuomi Shundo, Mika Aoki, Satoru Yamamoto, Keiji Tanaka, "Effect of Cross-linking Density on Horizontal and Vertical Shift Factors in Linear Viscoelastic Functions of Epoxy Resins", Macromolecules, Vol. 54, pp. 9618–9624 (2021)., 2021.10.
2. Atsuomi Shundo, Mika Aoki, Satoru Yamamoto, Keiji Tanaka, "Cross-linking Effect on Segmental Dynamics of Well-defined Epoxy Resins", Macromolecules, Vol. 54, pp. 5950-5956 (2021)., 2021.06.
3. Takuro Kogo, Atsuomi Shundo, Chi Wang, Keiji Tanaka, "Spatial Heterogeneity Accompanying Gel Formation of Poly(N-isopropylacrylamide) Aqueous Solution at a Temperature below Cloud Point", Macromolecules, Vol. 53, pp. 10964-10971 (2020)., 2020.11.
4. Atsuomi Shundo, Koichiro Hori, Takuya Ikeda, Nobuo Kimizuka, Keiji Tanaka, "Design of a Dynamic Polymer Interface for Chiral Discrimination"
, Journal of the American Chemical Society, Vol.135, pp.10282-10285, 2013.06, 一般に、光学異性体を分離・検出するためには、光学異性体を含む溶液・液体と接した高分子材料の界面において、キラル高分子が一方の対掌体と選択的に相互作用 (キラル識別) する必要がある。しかしながら、これまで界面における高分子の振る舞いに関する系統的な研究は少なく、材料設計の際にそれほど考慮されていないのが現状である。そこで本研究では、キラル液体界面におけるキラル高分子の凝集状態と不斉選択性の関係を明らかにすることを目的とした。.
Presentations
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