New Experiment–“Theory Capability for Atomic-Level Imaging of Interfaces in Solid-State Batteries

Liwen Wan | 19-FS-056

Executive Summary

We will demonstrate the feasibility of using a joint experiment–theory framework based on atomic-resolution microscopy and computer simulation to identify interfacial reactions in solid-state batteries. Successful completion of this research will provide guidance for manipulating interfacial structure and chemistry to improve solid-state battery performance.

Publications, Presentations, Etc.

Dive, A. and L. Wan, 2019. "Atomistic Modeling of Interfaces in All-Solid-State Lithium Ion Batteries." Lawrence Livermore National Laboratory Summer Student Poster Symposium, Livermore, CA. LLNL-POST-782922.

Wan, L., et al. 2019. "Atomistic Modeling of Interfaces in Solid-State Batteries." LLNL-KIST Workshop, Livermore, CA, September 2019. LLNL-PRES-790820.

––– . 2019. "Integrated Experiment–Theory Approach Towards Understanding Complex Interfacial Chemistry in Solid-State Batteries." 236th Electrochemical Society (ECS) Meeting, Atlanta, GA, October 2019. LLNL-PRES-793667.

––– . 2019. "Integrated Experiment–Theory Approach to Elucidate Complex Interfacial Chemistry in Solid-State Batteries." 236th Electrochemical Society (ECS) Meeting, Atlanta, GA, October 2019. LLNL-ABS-773201.