National Cheng Kung University
Our Work
Our research focuses on molecular‐level understanding and rational design of electrolyte and interfacial phenomena in energy storage systems. Using molecular dynamics (MD) simulations, first‐principles calculations, and data‐driven modeling, we investigate how solvation structures, ion–solvent interactions, and interfacial electric fields govern ion transport, electrochemical stability, and reaction pathways at electrode–electrolyte interfaces.
01
Molecular Simulations
· Li ion batteries
· Zn ion aqueous batteries
· Solvation structures
· Ion transport
02
Interfacial Simulations
· Electric double layers
· Interfacial ion distributions
· Potential-dependent behavior
03
Electrochemical Reactions
· Reaction pathways
· Kinetics
· Stability
· Selectivity
04
Data-Driven Electrolyte Design
· Data-driven modeling
· Physical descriptors
· Electrolyte optimization
