The long-term vision is to develop super-functional 2-dimensional nanomaterials with enhanced physical/chemical & electrical/mechanical properties to overcome t...
Physical & Computational
Physical chemistry is a branch of chemistry that focuses on understanding the fundamental principles and theories governing chemical systems and their behavior. In recent years, several research areas have emerged in the field of physical chemistry, both in experimental and theoretical/computational domains. Modern research areas in physical chemistry include:
Molecular Spectroscopy, Surface Science, Nanomaterials and Nanotechnology, Energy Conversion and Storage, Quantum Chemistry, Molecular Dynamics, Statistical Mechanics, Machine Learning, Reaction Kinetics, Biophysical Chemistry.
Molecular Spectroscopy, Surface Science, Nanomaterials and Nanotechnology, Energy Conversion and Storage, Quantum Chemistry, Molecular Dynamics, Statistical Mechanics, Machine Learning, Reaction Kinetics, Biophysical Chemistry.
Our goal is to study the structural and dynamic properties of complex molecular systems to better understand the relationship between molecular interactions and...
The manipulation of electrons, the smallest controllable charged particles, has advanced material engineering, especially as we navigate the intersection of cla...
The Kim"s group is studying the fundamental light-molecule interactions that occur in nanometer scale. Broadly, our research interests include spectroscopy of i...
NMR spectroscopy is an exciting field of research. Continuous technical breakthroughs in NMR help push the boundary of its applications. Well-ordered as well as...
The main research interest of our group is developing new single-molecule and single-cell imaging techniques for investigating various biological phenomena. We ...
Research Objective is regarding understanding materials properties as a function of size, fundamental scientific phenomena at a nanoscale by single species spec...
Lee’s group is focused on exploring the unusual chemistry of transition metal complexes using advanced computational approaches, aiming to accelerate the discov...
Many of renewable energy sources exist in varied forms such as waste heat, sunlight, and even wastewater. As a result of such variety of forms, a development of...
Our ultimate goal is to understand detailed mechanisms underlying biological phenomena using computational and theoretical tools, and to contribute to curing di...
Our research interests are in the area of theoretical and computational chemistry. Understanding the properties and the changes of materials at the molecular le...
We use molecular simulations to solve problems that are critical in energy/bio applications. We use/develop statistical mechanics / molecular dynamics / coarse-...
Hwang's group explores sustainable chemical cycles by developing electrochemical reaction/catalyst materials/integrated devices based on the understanding of th...
