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游琇伃 副教授 / Hsiu-Yu Yu Associate Professor

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游琇伃 副教授 / Hsiu-Yu Yu Associate Professor

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複雜流體理論實驗室 Complex Fluids Theory Lab 二館 統計力學膠體流體力學電腦模擬應用數學 Statistical mechanicsColloidal hydrodynamics Multiscale modeling (02)3366-3036 BLDG.II (02)3366-3054 hsiuyuyu@ntu.edu.tw N311 游琇伃 Hsiu-Yu Yu 化工二館(鄭江樓) CheE BLDG.II 副教授 Associate Professor N312

  • Introduction

    • Education Background
      • National Taiwan University  B.S. Ch.E., 2004
      • National Taiwan University  M.S. Ch. E., 2006
      • Cornell University Ph.D. Ch.E., 2012
      • Cornell University Postdoctoral Associate, 2012
      • University of Pennsylvania  Postdoctoral Researcher, 2012-2016

     

    • Research Topic
      • Predictive theoretical modeling of complex systems
        Theoretical modeling provides insights into the fundamentals of many complex systems ranging from organic‒inorganic hybrid materials to biological fluids. A suitably chosen model description that captures the essential physics of the system in conjunction with efficient multiscale modeling techniques that incorporates the physical laws relevant to the scales of interest can guide the materials design for a variety of innovations. Making use of classical density-functional theory, generalized Langevin dynamics, and continuum or molecular modeling, my group will answer basic questions in order to gain both qualitative and quantitative understanding regarding the equilibrium and dynamical properties of complex systems in engineering nanomedicine and materials science applications. Particular aspects that my group will address include: (1) Directed transport of functionalized nanoparticles for systematic materials processing and vascular targeted drug delivery (2) Controlling nanoparticle trafficking in the extracellular matrix and polymer networks (3) Predicting tunable, functionalized self-assemblies for high-efficiency advanced materials design and tissue engineering

  • Honor

    1. Invited Special Issue Guest Editor, Polymers, MDPI [IF: 4.967; Rank 16/90 in Polymer Science] (2022-2023)
    2. 指導學生陳聖哲同學,獲得台灣化學工程學會69週年年會學生英語演講競賽佳作 (2022)
    3. 國立臺灣大學年度績優教師 (2022)
    4. 指導學生王浩宇與郭俊佑同學,獲得臺大化工系110學年度松柏優秀學士專題競賽海報佳作 (2022)
    5. 國立臺灣大學年度績優教師 (2021)
    6. 國立臺灣大學學術研究績效獎勵 (2021)
    7. 國立臺灣大學108學年度教學傑出教師 (2020)
    8. 指導學生陳薏如與林樂淇同學,獲得臺大化工系108學年度松柏優秀學士專題競賽海報佳作 (2020)
    9. 國立臺灣大學學術研究績效獎勵 (2019)
    10. 指導學生張力玄同學,獲得台灣化學工程學會66週年年會學生英語演講競賽-輸送現象及分離程序組佳作 (2019)
    11. 科技部工程司化工學門優秀年輕學者計畫 (2019-2022)
    12. 國立臺灣大學107學年度教學優良教師 (2019)
    13. 國立臺灣大學學術研究績效獎勵 (2018)
    14. Preparatory Committee, 2018 International Symposium on Transport Phenomena and Applications (STPA), Nov. 2018
    15. Outstanding Reviewer, International Journal of Heat and Mass Transfer, Elsevier, Nov. 2018
    16. Outstanding Reviewer, Journal of the Taiwan Institute of Chemical Engineers, Elsevier, Sep. 2018
    17. 指導學生張力玄同學,獲得科技部107學年度大專學生專題研究計畫 (2018)
    18. 指導學生潘冠廷同學,獲得台灣化學工程學會64週年年會壁報論文競賽-熱力與界面工程組傑出論文獎 (2017)
    19. 指導學生吳聿文同學,獲得台灣化學工程學會64週年年會學生英語演講競賽-佳作論文獎 (2017)
    20. 指導學吳聿文同學,獲得中華民國界面年會學生演講競賽佳作 (2017)
    21. 科技部延攬特殊優秀人才獎勵 (2016-2019)
    22. American Institute of Chemical Engineers, senior member
    23. 台灣化工學會終身會員
    24. 中華民國界面科學學會理事 (2017-2021)
    25. 中華民國界面科學學會候補理事 (2021-2023)

  • Publications

    1. H.-Y. Yu, Z. Jabeen, D. M. Eckmann, P. S. Ayyaswamy and R. Radhakrishnan, "Microstructure of Flow-Driven Suspension of Hardspheres in Cylindrical Confinement: A Dynamical Density Functional Theory and Monte Carlo Study", Langmuir, 33(42), 11332-11344, 2017(Oct), (SCI,EI), (IF: 3.9)
    2. R. Radhakrishnan, H.-Y. Yu, D. M. Eckmann and P. S. Ayyaswamy, "Computational models for nanoscale fluid dynamics and transport inspired by nonequilibrium thermodynamics", Journal of Heat Transfer, 139(3), 330011-330019, 2017(Mar), (SCI,EI), (IF: 1.9)
    3. Z. Jabeen, H.-Y. Yu, D. M. Eckmann, P. S. Ayyaswamy and R. Radhakrishnan, "Rheology of colloidal suspensions in confined flow: Treatment of hydrodynamic interactions in particle-based simulations inspired by dynamical density functional theory", Physical Review E, 98(4), 042602, 2018(Oct), (SCI,EI), (IF: 2.4)
    4. Y.-W. Wu and H.-Y. Yu, "Adhesion of a polymer-grafted nanoparticle to cells explored using generalized Langevin dynamics", Soft Matter, 14(48), 9910-9922, 2018(Dec), (SCI,EI), (IF: 3.7)
    5. C.-H. Tai and H.-Y. Yu, "Entropic effects in solvent-free bidisperse polymer brushes investigated using density functional theories", Langmuir, 35(51), 16835-16849, 2019(Dec), (SCI,EI), (IF: 3.9)
    6. H.-T. Chung and H.-Y. Yu, "Binding of a Brownian nanoparticle to a thermally fluctuating membrane surface", Physical Review E, 101(3), 032604, 2020(Mar), (SCI,EI), (IF: 2.4)
    7. L.-H. Chang and H.-Y. Yu, " Flow-driven release of molecules from a porous surface explored using dynamical density functional theory", Journal of the Taiwan Institute of Chemical Engineers, 117, 26-38, 2020(Dec), (SCI,EI), (IF: 5.3)
    8. Y.-Y. Chang and H.-Y. Yu*, “Structural and dynamical coupling in solvent-free polymer brushes elucidated by molecular dynamics simulations”, Langmuir, 37, 3331-3345, 2021(Mar), (SCI,EI), (IF: 3.9)
    9. D. Lin and H.-Y. Yu*, “Deep learning and inverse discovery of polymer self-consistent field theory inspired by physics-informed neural networks,” Phys. Rev. E, 106, 014503, 2022(Jul), (SCI,EI), (IF: 2.7). https://doi.org/10.1103/PhysRevE.106.014503
    10. Y.-J. Chen and H.-Y. Yu*, “Enthalpic interactions and solution behaviors of solvent-free polymer brushes,” Polymers, 14, 5237, 2022(Dec), (SCI,EI), (IF: 5.0). https://doi.org/10.3390/polym14235237

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    Last Updated

    2024-12-25