Kinetics and mass tranport

  Since the commercialization of LIBs, only organic liquid electrolytes have been used in commercial systems. However, their use poses a significant safety concern for emerging applications such as electric vehicles and grid storage because of the high risk of leakage and flammability. In addition, dendritic lithium growth over extended cell cycling can lead to short circuits in LIBs when a lithium metal anode and organic liquid electrolyte are used. Some cathode materials also have a tendency to dissolve in the electrolyte (e.g., Mn ions in LiMn2O4 spinel cathodes), which can further reduce the overall efficiency of LIBs. To circumvent these issues, the replacement of organic liquid electrolytes with inorganic solid-state electrolytes (SSEs) has been suggested. Meanwhile, the continuously increasing requirement of battery’s rate capacity asks further understanding and improving ionic kinetics in state-of-the-art electrode materials.

Representative Publications

  1. M. Amsler, Z. Yao, C. Wolverton. Cubine, A Quasi 2-dimensional Copper-bismuth Nano Sheet, Chemistry of Materials 29(22), 9819-9828 (2017).
  2. Q. Li, H. Liu, Z. Yao, J. Cheng, T. Li, Y. Li, C. Wolverton, J. Wu, and V. P. Dravid. Electrochemistry of Selenium with Sodium and Lithium: Kinetics and Reaction Mechanism, ACS Nano 10(9), 8788-8795 (2016).
  3. Z. Yao, S. Kim, K. Michel, Y. Zhang, M. Aykol, C. Wolverton, Stability and Conductivity Study of the Complex Lithium Borohydride Based Solid-state Electrolytes from First Principles, Physical Review Materials 2, 065402-065408 (2018).
  4. J. He, Z. Yao, C. Wolverton, Discovery of oxysulfide based Li-ion superionic conductors, Under review.
  5. L. Li, Z. Yao, J. Zhu, K. Chen, C. Wolverton, M. C. Hersam, Comprehensive Enhancement of Nanostructured NMC Cathode Materials via Conformal Graphene Dispersion, Under review.
  6. L. Li, S. Kim, Z. Yao, J. Zhu, K. Chen, L. M. Guiney, X. Liu, Z. Wang, C. Wolverton, M. C. Hersam, Toward A Qualitative Understanding of Graphene in Improving Electrochemical Performance of Spinel LiMn2O4 Cathodes, Under review.