Directions
I. Stable Metal Anodes
- Li, Na, K, Mg, Zn, Al, etc.
- Current- and potential-dependent morphological instability
- Solid electrolyte interphase
II. Liquid, Polymer, and Ceramic Electrolytes
- Distorted solvation structures and electrical double layer structure
- Ion transport kinetics in the bulk and across the space charge layers
- Smart separators based on autonomous electrokinetic phenomena
III. Hierarchical Intercalation Materials and Electrodes
- Sustainable syntheses methods
- Hierarchical structures
- Solvent-free fabrications of ultra-thick porous electrodes
Methods
We design special electrochemical cells to characterize the targeted dynamic processes. The obtained transient responses are analyzed by new mathematical equations to reveal the self-consistent explanations. Simulations and computations are exploited to complement the physical justifications of kinetics and thermodynamic parameters.
I. Materials Synthesis & Characterization
- In-house syntheses of battery materials
- Multimodal chemical and physical characterizations
- Full access to shared facilities in IMSE and CEAF.
II. Capillary Cell Operando Microscopy
- Micrometer-sized field of view with sub-micron details
- Accurate determination of local current densities
- Rapid assessment of parasitic reactions and instabilities in dynamic conditions
- High throughput experimental data to reveal statistically significant trend
III. Continuum-level Mathematical Modeling
Exemplified by the growing list of new equations:
- Generalized Sand’s time equation for potential-step technique in realistic conditions
- Boundary-length kinetic equation during electrochemical phase transformation
- Young-Laplace equation for critical metal penetration through separator pores
IV. Simulations and Computaions
- Molecular dynamics simulations of bulk and interfacial solvation structures
- Quantum chemistry calculations for electrolyte and interphase optimizations
- Predictive reaction kinetic models
- Porous electrode simulations with non-equilibrium materials thermodynamics
Sponsors
