(6eg) Nanoscale Solid State Electrolyte Synthesized through Atomic Layer Deposition for Interfacial Engineering and All-Solid-State Batteries

A. New Materials Development and Processing – for Novel Manufacturing, Flexible Electronics and Solid State Energy Storage

A1. Development of Novel atomic layer deposition (ALD) Chemistry of Solid State Electrolyte

A2. Flexible Hybrid Inorganic/Organic Materials via Vapor Phase ALD/MLD Synthesis

A3. Rational Designs toward High Performance, 3D Solid State Battery

A4. Interfacial Modification for Stable Solid-Solid Interfaces

B: Advanced Material Properties Exploration - Promoting and Suppressing Solid-State Phase Transformation under Interfacial Controls – from fundamental thermodynamics to ion-configurable solid-state device

B1. Phases Competitions under Kinetic Constraints

B2. Application: Solid-State, Ion-Configurable Devices

C: Next-Generation Energy Storage and Sustainability:

C1. Rational Materials Desig, Engineering and Processing of Protection layers for Advanced Layered Electrode Materials

C2. Metal Anodes Protection for Next-Generation Battery

Teaching Interests:

Thermodynamics, Kinetics, Solid-state physics, Analytic Electrochemistry, Materials for Energy and Environmental Sustainability, Micro-processing and Engineering of Advanced Materials, Nanotechnology Characterization