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陳立仁 教授 / Li-Jen Chen Professor

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陳立仁 教授 / Li-Jen Chen Professor

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界面現象研究室 Interfacial Phenomena Lab 一館 化工熱力學界面現象物理化學天然氣水合物 Experiments and modeling of gas hydrate systemsWetting behavior on micro/nanoscale patterned surfacesPhysico-chemical behavior of aqueous systems containing polymers and surfactants (02)3366-3049 BLDG. I (02)3366-3041 ljchen@ntu.edu.tw 202A、204 陳立仁 Li-Jen Chen 化工一館 CheE BLDG. I 教授 Professor 210A

  • Introduction

    • Education Background
      • National Taiwan University   B.S. Ch.E.,1980
      • National Taiwan University   M.S. Ch.E.,1984
      • Rice University Ph.D. Ch.E.,1989

     

    • Research Topic
      • Experiments and modeling of gas hydrate systems
        Gas hydrate is one of the world’s largest reservoirs of carbon-based fuel. For gas hydrate production and the subsequent storage and transportation, it is necessary to have a good understanding of the thermodynamic and kinetic properties of gas hydrate. Current research projects included (1) both experimental work and modeling of phase behavior of gas hydrate systems; (2) development of the production technology of replacing methane hydrate by CO2.
      • Wetting behavior on micro/nanoscale patterned surfaces
        Micro/nanoscale patterned surfaces have been fabricated as well as superhydrophobic surfaces. Wetting behavior and evaporation process of a liquid droplet deposited on these patterned surfaces are explored both experimentally and theoretically to improve related applications, such as ink-jet printing, microfluidics………。
      • Physico-chemical behavior of aqueous systems containing polymers and surfactants.
        The behavior of systems containing polymer and surfactants plays an essential role in practical applications, such as detergents, foods, cosmetics, paints, pesticides and formulations of drugs. A multitude of techniques are applied to characterize and explore the structure and composition of aggregates and complexes formed by polymers and surfactants.

     

    • Recent Research Topic
      • Interaction between surfactant and polyelectrolyte and its effect on thermodynamic behavior of micellization,界面活性劑與聚電解質之相互作用與其對形成微胞熱力學行為之效應 Li-Jen Chen, sponsored by the National Science Council Contract #NSC 98-2221-E-002 -086, NT$1,015,000, 8/1/2009-7/31/2010
      • 台灣西南海域新興能源–天然氣水合物資源調查與評估:熱力學研究(2/4)理論部分 Li-Jen Chen, sponsored by the 經濟部地質調查所 Contract #97-5226903000-02-04, NT$1,300,000, 1/1/2009-12/31/2009

  • Publications

    1. Y.A. Chen, L.K. Chu, C.K. Chu, R. Ohmura and L.J. Chen*, "Synthesis of Methane Hydrate from Ice Powder Accelerated by Doping Ethanol into Methane Gas", Scientific Reports , 9, 12345, 2019(Auguest), (SCI,EI)
    2. C.F. Lee, C.H. Yang, T.L. Lin, P. Bahadur and L.J. Chen*, "Role of Molecular Weight and Hydrophobicity of Amphiphilic Tri-block Copolymers in Temperature-Dependent Co-micellization Process and Drug Solubility", Colloids and Surfaces B: Biointerfaces, 183, 110461, 2019(September), (SCI,EI)
    3. B.Y. Liu, R. Seemann, L.J. Chen and M. Brinkmann, "Directional liquid wicking in regular arrays of triangular posts", Langmuir, 35(50), 16476−16486, 2019(Nov), (SCI,EI)
    4. B. Vyas, S.A. Pillai, D. Ray, V.K. Aswal, M.R. Wang, L.J. Chen and P. Bahadur, "Interactions of Alkyltriphenyl Phosphonium Based Ionic Liquids with Block Copolymer Microstructures: A Multitechnique Study", Journal of Molecular Liquids, 300, 112341, 2020(Feb), (SCI,EI)
    5. Ryo Koyama, Li-Jen Chen, Saman Alavi, and Ryo Ohmura, “Improving thermal efficiency of hydrate-based heat engine generating renewable energy from low-grade heat sources using a crystal engineering approach”, Energy 198, 117403, 2020, (SCI,EI)
    6. Kai-Chieh Yang, Chieh Wang, Ting-Yu Hu, Hui-Ping Lin, Kuan-Hung Cho, and Li-Jen Chen*, “Self-Pinning of Silica Suspension Droplets on Hydrophobic Surfaces”, Journal of Colloid and Interface Science 579, 212–220, 2020.
    7. Chin-Fen Lee, Mu-Rong Wang, Tsang-Lang Lin, Ching-Hsun Yang, and Li-Jen Chen*, “Dynamic Behavior of the Structural Phase Transition of Hydrogel Formation Induced by Temperature Ramp and Addition of Ibuprofen”, Langmuir 36, 8929−8938, 2020.
    8. O. N. Khlebnikov, I. V. Postnova, Li-Jen Chen and Yu. A. Shchipunov, “Silication of dimensionally stable cellulose aerogels for improving their mechanical properties”, Colloid Journal 82(4), 448-459, 2020.
    9. Kuang-Yu Chang, Che-Kang Chu, Lee-Shin Chu, Yen-An Chen, Shiang-Tai Lin, Yan-Ping Chen and Li-Jen Chen*, “Effect of Small Cage Guests on Dissociation Properties of Tetrahydrofuran Hydrates”, J. Phys. Chem. B 124, 7217−7228, 2020.
    10. Riku Matsuura, Kosuke Watanabe, Yuji Yamauchi, Haruka Sato, Li-Jen Chen, and Ryo Ohmura, “Theoretical analysis on thermodynamic performance of hydrate-based refrigeration cycle”, Energy 220, 119652, 2021.
    11. Pooja Patidar, Bharatkumar Kanoje, Anita Bahadur, Ketan Kuperkar, Debes Ray, Vinod KAswal,Mu-Rong Wang, Li-Jen Chen, and Pratap Bahadur, “Micellar characteristics of an amphiphilic star-block copolymer in DES-water mixture”, Colloid and Polymer Science 299, 117–128, 2021.
    12. Chao-Jen Wang, Wei-Fan Kuan, Hui-Ping Lin, Yury A. Shchipunov, and Li-Jen Chen*, “Facile hydrophilic modification of polydimethylsiloxane-based sponges for efficient oil-water separation”, Journal of Industrial and Engineering Chemistry, 96, 144-155, 2021.
    13. Hui-Ping Lin and Li-Jen Chen*, “Direct observation of wetting behavior of water drops on single micro-scale roughness surfaces of rose petal effect”, Journal of Colloid and Interface Science 603, 539–549, 2021.
    14. Dhruvi Patel, Rabindranath Jana, Min-Hsuan Lin, Ketan Kuperkara, Debabrata Seth, Li-Jen Chen, and Pratap Bahadur, “Revisiting the salt triggered self-assembly in very hydrophilic triblock copolymer Pluronic® F88 using multitechnique approach”, Colloid and Polymer Science 299, 1113–1126, 2021.
    15. Ting-Yu Hu, Chieh Wang, Kai-Chieh Yang, and Li-Jen Chen*, “Gravity effect of silica and polystyrene particles on deposition pattern control and particle size distribution on hydrophobic surfaces”, Journal of Industrial and Engineering Chemistry, 106, 214–224, 2022. https://doi.org/10.1016/j.jiec.2021.10.030
    16. Wei-Fan Kuan, Wen-Yueh Yu, Fang-Yi Tu, Ching-Hsiu Chung, Yu-Cian Chang, Monica Mengdie Lin, Tzu-Hsien Yu, and Li-Jen Chen*, “Facile Reflux Preparation of Defective Mesoporous Ceria Nanorod with Superior Catalytic Activity for Direct Carbon Dioxide Conversion into Dimethyl Carbonate”, Chemical Engineering Journal 430, 132941, 2022. https://doi.org/10.1016/j.cej.2021.132941
    17. V. R. Belosludov, K. V. Gets, R. K. Zhdanov, Yu. Yu. Bozhko, R. V. Belosludov, L.-J. Chen, “Collective effect of the hydrogen bond network transformation at initial stage of the methane hydrate growth”, JETP Letters 115(3), 124-129, 2022. https://doi.org/10.1134/S0021364022030031
    18. Yau Zu Khoo, Yu-Hsuan Ho, Kuang-Yu Chang, Yan-Ping Chen, and Li-Jen Chen*, “Dual inhibition effect of reline deep eutectic solvent on methane hydrate nucleation and formation”, Fuel 328, 125376, 2022. https://doi.org/10.1016/j.fuel. 2022. 125376.
    19. Chi-Chun Lo and Li-Jen Chen*, “Dropwise Condensation on Single-micro-scale Roughness Hydrophobic Surfaces”, Surfaces and Interfaces 33, 102281, 2022. https://doi.org/10.1016/j.surfin.2022.102281.
    20. Chieh Wang, Yu-Shiou Chen, and Li-Jen Chen*, “Evaporation-induced deposition morphology of suspension droplets on hydrophobic surfaces manipulated by controlling the relative humidity”, International Journal of Heat and Mass Transfer 202, 123709, 2023. https://doi.org/10.1016/j.ijheatmasstransfer.2022.123709

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    Last Updated

    2024-12-17