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Tan Tian

Dr. Tian TAN

PhD - City University of Hong Kong (2022)
MSc - City University of Hong Kong (2017)
BSc - Tianjin University of Technology (2015)

Email:

tiantan4-c@my.cityu.edu.hk

Bio

Dr. Tan is currently a postdoctoral research fellow under Dr. An’s supervision at Hong Kong University of Science and Technology. She received her Bachelor’s and Master’s degrees in 2017 and 2022 at City University of Hong Kong. Her research interests include lithium-ion battery, silicon-based anode, thermal stability, liquid electrolytes, active material synthesis, material surface treatment, electrochemical performances and material characterisations.

Research Interests

  • Lithium-ion battery

  • Silicon-based anode

  • Thermal stability

  • Liquid electrolytes

  • Active material synthesis

  • Material surface treatment

  • Electrochemical performances

  • Material characterizations

Publication

Peer-reviewed Journal Papers:

  1. Guo, J.; Lee, J.-G.; Tan, T.; Yeo, J.; Wong, P. W.; Ghaffour, N.; An, A. K., Enhanced ammonia recovery from wastewater by Nafion membrane with highly porous honeycomb nanostructure and its mechanism in membrane distillation. Journal of Membrane Science 2019, 590, 117265.

  2. Tan, T.; Lee, P.-K.; Yu, D. Y. W., (3-Aminopropyl)triethoxysilane as an Electrolyte Additive for
    Enhancing Thermal Stability of Silicon Anode in Lithium-ion Batteries. ACS Applied Energy Materials 2022, 5 (9), 11254-11262.

  3. Tan, T.; Lee, P.-K.; Zettsu, N.; Teshima, K.; Yu, D. Y. W., Passivating oxygen atoms in SiO through pre-treatment with Na2CO3 to increase its first cycle efficiency for lithium-ion batteries. Electrochimica Acta 2022, 404, 139777.

  4. Tan, T.; Lee, P.-K.; Yu, D. Y. W., Improving Thermal Stability of Si-Based Anodes for Lithium-Ion Batteries by Controlling Bulk and Surface Layer Compositions. Journal of The Electrochemical Society 2021, 168 (10), 100527.

  5. Tan, T.; Lee, P.-K.; Zettsu, N.; Teshima, K.; Yu, D. Y. W., Highly stable lithium-ion battery anode with polyimide coating anchored onto micron-size silicon monoxide via self-assembled monolayer. Journal of Power Sources 2020, 453, 227874.

  6. Tan, T.; Lee, F.; Yu, D. Y. W., Probing the Reversibility of Silicon Monoxide Electrodes for Lithium-Ion Batteries. Journal of The Electrochemical Society 2019, 166, A5210-A5214.

  7. Yu, D. Y. W., Lee, P., Wang, S. & Tan, T., Mechanical properties of silicon-based electrodes. 2021, Silicon Anode Systems for Lithium-Ion Batteries. Kumta, P., Hepp, A., Datta, M. & Velikokhatnyi, O. (eds.). ELSEVIER, p. 119-155

Patents:

  1. A Material for Use in A Battery, A Battery and A Method of Manufacturing A Material for Use in A Battery. YU, Y. W. D., LEE, P. K. & TAN, T., 29 Jan 2020, (Accepted/In press/Filed) Priority No. 16/775,353

  2. Electrode material and a method of preparing the same. YU, Y. W. D., LEE, P. K. & TAN, T., 9 Oct 2018, (Accepted/In press/Filed) Priority No. 16/154,883

Conference Proceedings:

  1. (3-Aminopropyl)triethoxysilane as an Electrolyte Additive for Enhancing Thermal Stability of Silicon Anode in Lithium-ion Batteries (Poster) 21st IMLB, Sydney Jun 2022

  2. Passivating Oxygen Atoms in SiO through Pre-Treatment with Na2CO3 to Increase Its First Cycle Efficiency for Lithium-Ion Batteries (Poster) 241st ECS Meeting, the US Jun 2022

  3. Onion-like Synergetic Multilayer Coating for High-Stability Silicon Monoxide Anode in Lithium-ion Batteries (Oral) 235th ECS Meeting, the US May 2019

  4. Probing the Reversibility of Silicon Monoxide Electrodes (Poster) 19th IMLB, Japan Jun 2018

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