Rice University

Events at Rice

Lecture/Lecture Series

Chemical and Biomolecular Engineering
Dean of Engineering

Speaker: Dr. Bryan Wong
University of California, Riverside

Real-Time Density Functional Tight Binding: A New Computational Tool for Probing Electronic Properties of Large Chemical Systems

Thursday, August 24, 2017
2:30 PM  to 3:30 PM

210  Herzstein Hall
Rice University
6100 Main St
Houston, Texas, USA

Light-harvesting systems and plasmonic materials continue to garner significant attention due to their importance in both energy conversion and sensitive detection technologies. However, several challenges exist in improving their performance: these electronic multifunctional systems are complex, coupled, many-body systems with both structural and electronic interactions with their surrounding environments. All of these processes occur at different time and length scales, and span an immense multi-scale space (i.e., chemical interactions within their environment, all in tandem with external light and electric fields). To this end, we have developed a new computational approach based on density functional tight binding (DFTB) theory to directly probe and calculate these complex materials. Our approach significantly differs from conventional DFT methods in that we can directly calculate real-time dynamical effects in the presence of strong, non-perturbative couplings with the surrounding environment. Furthermore, and most importantly, our implementation allows us to calculate the electronic and structural properties of large systems (~10,000 atoms), whereas conventional DFT approaches are typically limited to only hundreds of atoms. Using this new DFTB-based capability (in conjunction with custom-developed computational hardware), I will highlight our recent work on photoinitiated dynamics in complex heterogeneous solvated systems and large plasmonic nanoantennas. By treating these large systems at a quantum-mechanical level of detail, we show that the electron dynamics in these chemical systems are surprisingly rich and complex. Most importantly, these timedomain studies provide an intuitive approach to probe the microscopic details of real-time electron dynamics to both understand and tailor these complex chemical systems for realistic applications.

Biography of Dr. Bryan Wong:
Prof. Bryan M. Wong received BS (2001) degrees in physics and chemistry (summa cum laude) from Rice University, and received a PhD (2007) in chemical physics from the Massachusetts Institute of Technology (M.I.T.). In 2014, Prof. Wong moved to UC Riverside as an assistant professor in the Department of Chemical & Environmental Engineering and the Materials Science & Engineering Program. Prof. Wong has published over 110 scientific journal articles and is the recipient of a 2016 Department of Energy (DOE) Early Career Award and a recent 2017 ACS COMP OpenEye Outstanding Junior Faculty Award from the American Chemical Society.



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