About

Our research spans multiple interdisciplinary domains, integrating molecular simulations to address fundamental and applied challenges in polymer science such as crystallization and glass transition. We explore the statistical and thermodynamic properties of polymer systems, leveraging computational methods to gain insights into their behavior at various scales. Additionally, we engage in engineering education research, aiming to enhance pedagogical strategies and improve student learning outcomes in STEM disciplines. Our interests also extend to quantum computing, where we investigate its potential applications in solving complex scientific and engineering problems, contributing to the advancement of computational techniques in these fields.