(3af) Multi-Scale and Holistic Integration Approaches for Systems Including Nanoscale Phenomena

During the past decades, along with remarkable scientific and engineering achievements, the world has faced immense challenges in efficiency and system scaling, which motivates the investigation of novel materials and nanoscale system integration. Mathematical models have been widely studied to satisfy the demand by tuning physical properties, chemical structures, and functionalities of the new materials as a part of the eye-opening progress. The remarkable progress in nanotechnology provides us the understanding of nanoscale physics to atomistically control the system properties. However, advances in nano materials and simulation methodologies direct us to the critical issue of the interaction to meso/macroscopic scales since most systems comprise phenomena at different time and length scales, and often described via a hierarchy of scale-specific models. Consequently, the multi-scale approach based on a clear understanding of nanoscale phenomena becomes an essential multidisciplinary analysis paradigm in science and engineering fields in order to hybridize the new nano materials and systems. Here, the mechanism of information communication can be obtained from one scale and passed to another scale allowing one to predict the system scale behavior from first principles in a bottom-up approach. The device scale design criteria, nonetheless, can be established via nanoscale resolution using the top-down approach.

My research interest covers the broad area of both theoretical and experimental multi-scale approaches in novel materials and nanoscale phenomena originating from tribology, energy, and nano electronics applications by using novel atomistic/molecular and mesoscale/continuum theory and developing methodologies for hierarchical integration of the systems at the different scales, which will be expanded to multi-phenomena/physics area. The device scale analysis will be coupled with optimization for the process system integration. I performed experiments and vigorously collaborate with experimentalists to complement our ongoing full-scale simulation. In this poster session, I will introduce and discuss the details of my current and future research and teaching plan.