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陳嘉晉 助理教授 / Chia-Chin Chen Assistant Professor

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陳嘉晉 助理教授 / Chia-Chin Chen Assistant Professor

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電化學及半導體物理研究室 Electrochemistry and Semiconductor Physics Lab 一館 固態離子學電化學缺陷化學半導體物理 Solid State IonicsElectrochemistryDefect ChemistrySemiconductor Physics (02)3366-3053 BLDG.Ⅰ (02)3366-3030 chiachin@ntu.edu.tw 227 陳嘉晉 Chia-Chin Chen 化工一館 CheE BLDG. I 助理教授 Assistant Professor 119

  • Introduction

    • Education Background
      • National Taiwan University     B.S. Ch.E.,2005
      • Illinois Institute of Technology     M.S. Ch.E.,2010
      • Max Planck Institute                    Ph.D. Chemistry,2016
      • Max Planck Institute for Solid State Research Postdoctoral Fellow
      • Stanford University        Postdoctoral Fellow

     

    • Research Topic
      • Solid State Ionics
        Our research focus on exploring and exploiting the material functionalities that are related to ions and electrons in solids. The relevant applications include energy and semiconductor devices.
      • Electrochemistry
        Our interest lies on understanding the fundamentals of electrochemical reactions and developing electrocatalyst materials. Current topics include interfacial reactions, space charge effects, and electro-chemo-mechanics.
      • Semiconductor Physics
        The research aims at tuning the electronic properties of ionic solids by controlling the lattice defects. Such a study is helpful to develop photodiode and memory devices that exhibit high performance and consume low energy.

  • Honor

    1. Yushan young scholar fellowship, 2020.
    2. Best Dissertation in Solid State Chemistry and Materials Science in Germany, 2018
    3. Best Oral Presentation Award, 21st Solid State Ionics, 2017


    Others
    1. 指導凌樂研同學榮獲亞洲電化學會議亞洲電化學能源科技會議(ACEPS11)之最佳海報獎
    2. 指導凌樂研同學榮獲2022年台灣化學工程學會69屆年會口頭報告論文佳作獎

  • Publications

    1. H.-W. Liu, S.-K. Parthasarathi, S. Thi, Y.-T. Weng, S. Bolloju, C.-C. Chen*, R.-J. Jeng, N.-L. Wu, A comparative study of polycrystal/singlecrystal LiNi0. 8Co0. 1Mn0. 1O2 in allsolidstate Liion batteries with halide‐based electrolyte under low stacking pressure, Energy Technology, 2201439 (2023) https://doi.org/10.1002/ente.202201439
    2. H.-W. Liu, C.-C. Lin, P.-Y. Chang, S.-C. Haw, H.-S. Sheu, J.-M. Chen, Chia-Chin Chen, R.-J. Jeng, N.-L Wu, Reducing oxy-contaminations for enhanced Li-ion conductivity of halide-based solid electrolyte in water-mediated synthesis, Journal of Solid State Electrochemistry, 26, 2089 (2022) https://doi.org/10.1007/s10008-022-05213-y
    3. C. Xiao, C.-C. Chen, J. Maier, Discrete modeling of ionic space charge zones in solids, Physical Chemistry Chemical Physics, 24, 11945 (2022) https://doi.org/10.1039/D1CP05293D
    4. J. Park, H. Zhao, S. D. Kang, K. Lim, C.-C. Chen, Y.-S. Yu, R. D Braatz, D. A Shapiro, J. Hong, M. F Toney, M. Z Bazant, W. C Chueh, Fictitious phase separation in Li layered oxides driven by electro-autocatalysis, Nature Materials, 20, 991 (2021)
    5. C.-C. Chen, Y. Yin, S. D. Kang, W. Cai, and W. C. Chueh, Electro-chemo-mechanical charge carrier equilibrium at interfaces, Physical Chemistry Chemical Physics, 41, 23730 (2021)
    6. C.-C. Chen, J. Maier, Increased Storage through Heterogeneous Doping. Chemistry of Materials, 30, 5041-5049. (2018)
    7. Qiubo Zhang, Zhe Shi, Kuibo Yin, Hui Dong, Feng Xu, Xinxing Peng, Kaihao Yu, Hongtao Zhang, C.-C. Chen, Ilia Valov, Haimei Zheng, Litao Sun, Spring-Like Pseudoelectroelasticity of Monocrystalline Cu2S Nanowire. Nano Letters, 18, 5070-5077 (2018).
    8. L. Fu, C.-C. Chen, J. Maier, Interfacial mass storage in nanocomposites. Solid State Ionics 318,54-59 (2018).
    9. C.-C. Chen, E. Navickas, J. Fleig, J. Maier, Kinetics of space charge storage in composites. Advanced Functional Materials, 28, 1705999 (2018).
    10. C.-C. Chen, J. Maier, Decoupling electron and ion storage and the path from interfacial storage to artificial electrodes. Nature Energy, 3, 102–108 (2018).
    11. C.-C. Chen, J. Maier, Synergistic silver storage in the composite RbAg4I5:graphite: Thermodynamics and kinetics. Solid State Ionics, 312, 97–105 (2017).
    12. R. M. L. McFadden, T. J. Buck, A. Chatzichristos, C.-C. Chen, D. L. Cortie, K. H. Chow, M. H. Dehn, V. L. Karner, D. Koumoulis, D. P. Levy, C. Li, I. McKenzie, R. Merkle, G. D. Morris, M. R. Pearson, D. Samuelis, M. Stachura, J.Xiao, J. Maier, R. F. Kiefl, W. A. MacFarlane. Microscopic dynamics of Li+ in rutile TiO2 revealed by 8Li β-Detected NMR. Chemistry of Materials, 10187–10197 (2017).
    13. C.-C. Chen, J. R. Selman, Anode modeling of a molten-carbonate based direct carbon fuel cell. Journal of Power Sources, 353, 312-322 (2017).
    14. C. Zhu, C. Wu, C.-C. Chen, P. Kopold, P. A. van Aken, J. Maier, Y. Yu, A high power-high energy Na3V2(PO4)2F3 sodium cathode: Investigation of transport parameters, rational design and realization. Chemistry of Materials, 29(12), 5207–5215 (2017).
    15. C.-C. Chen, J. Maier, Space charge storage in composites: thermodynamics. Physical Chemistry Chemical Physics, 19, 6379-6396 (2017).

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    Last Updated

    2025-04-16
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