Publications


Journal Papers

[7] H. Shin, R. Zhan, K. Dhindsa, L. Pan, T. Han (2020). Electrochemical performance of recycled cathode active materials using froth flotation-based separation process, Journal of The Electrochemical Society, 167, 020504 (link)

[6] H. Shin, J. Zhang, W. Lu (2019). A comprehensive study of black phosphorus-graphite composite anodes and HEMM synthesis conditions for improved cycle stability, Journal of The Electrochemical Society, 166, A2673-A2682 (open access article) (link)

[5] H. Shin, J. Zhang, W. Lu (2019). Material structure and chemical bond effect on the electrochemical performance of black phosphorus-graphite composite anodes, Electrochimica Acta, 309, 264-273 (link)

[4] J. Zhang, H. Shin, W. Lu (2019). Highly ambient-stable few-layer black phosphorene by pulsed laser exfoliation and HEMM, Chemical Communications, 55, 2601-2604. (selected as a cover page article) (link)

[3] H. Shin, J. Park, A.M. Sastry, W. Lu (2015). Effects of Fluoroethylene Carbonate (FEC) on Anode and Cathode Interfaces at Elevated Temperatures, Journal of The Electrochemical Society, 162 (9), A1683-A1692 (link)

[2] H. Shin, J. Park, A.M. Sastry, W. Lu (2015). Degradation of the Solid Electrolyte Interphase Induced by the Deposition of Manganese ions, Journal of Power Sources, 284, 416-427 (link)

[1] H. Shin, J. Park, S. Han, A.M. Sastry, W. Lu (2015). Component-/Structure-Dependent Elasticity of Solid Electrolyte Interphase Layer in Li-ion Batteries: Experimental and Computational Studies, Journal of Power Sources, 277, 169-179 (link)


Conference Presentations

[10] H. Shin, S. Han, “Mechanical failure analysis of single electrode particles bonded to solid electrolytes in all-solid-state Li-ion batteries,” 2019 IMECE International Mechanical Engineering Congress & Exposition, Salt Lake City, UT (2019)

[9] H. Shin, R. Zhan, K. Dhindsa, P. Lei, and T. Han, “A scalable froth-flotation separation process for direct recycling of Li-ion batteries and its technical feasibility,” The 236th ECS Meeting, Atlanta, GA (2019)

[8] H. Shin, J. Park, and W. Lu, “Interfacial chemistry and mechanics of fluoroethylene carbonate (FEC)-derived electrode/electrolyte interfaces,” The 18th International Meeting on Lithium Batteries, Chicago, IL (2016)

[7] H. Shin, J. Park, and W. Lu, “Mechanical properties of the solid electrolyte interphase layer in Li-ion batteries,” The 18th International Meeting on Lithium Batteries, Chicago, IL (2016)

[6] H. Shin, J. Park, and Wei Lu, “Unraveling the chemical/structural degradation mechanisms of the graphite/SEI in the presence of dissolved manganese ions in Li-ion batteries,” The 229th ECS Meeting, San Diego, CA (2016)

[5] F.Q. Yan, H. Shin, S. Sung, W. Lu, J. Pan, and S. Barbat, “Experimental investigation of short circuit criteria for lithium-ion battery pouch cells under pouch indentation,” SAE 2016 World Congress & Exhibition, Detroit, MI (2016)

[4] J. Park, H. Shin, and J. Li, “Mechanical stability of the solid electrolyte interphase layer in lithium-ion batteries,” ASME 2015 Applied mechanics and material conference, Seattle, WA (2015)

[3] H. Shin, J. Park, W. Lu, and A.M. Sastry, “The effects of temperature on the formation/growth of the SEI layer near the anode surface,” The 16th International Meeting on Lithium Batteries (IMLB), Jeju, South Korea (2012)

[2] J. Park, M. Zhu, Y.K. Lee, S. Han, H. Shin, S. Lee, W. Lu, and A.M. Sastry, “Degradation modeling of Li-ion battery cells,” The 16th International Meeting on Lithium Batteries (IMLB), Jeju, South Korea (2012)

[1] H. Shin, “A non-isothermal modeling of a proton exchange membrane fuel cell,” The COMSOL conference, Boston, MA (2009)


Patents

[3] H. Shin, “Method for lithium-ion battery regeneration” (US patent US62/931,104 , Pending)

[2] H. Shin, T. Han, “Regenerated lithium-ion cathode materials having modified surfaces” (US patent, Pending)

[1] H. Shin, “Solid-state battery with polymer electrode structure” (US patent US20190267666A1, Pending)