Continuum mechanics and numerical modeling constitute a fundamental framework for understanding the deformation and flow of materials, bridging microstructural phenomena and macroscopic responses.

Computational modeling and simulation of nanomaterials strongly complement physical experiments. They enable the prediction of characteristics and processes under conditions difficult to replicate or ...

Introduction to modern computational methods for calculating thermodynamic, transport, and structural properties of materials. Computational chemistry, molecular simulation, and mesoscopic methods, ...

Dr. Cui’s research goal is to develop multi-scale framework of new materials, including polymer materials, fuel cells and batteries by both micro- and macroscopic methods. Current research topics ...