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Tuesday, November 10
Unified density functional theory for complex fluids
Jianzhong Wu, University of California, Riverside, CAUT/ORNL Center for Molecular Biophysics Seminar
1:30 PM, Research Office Building (5700), Room-D307
Contact: Xiaolin Cheng (chengx@ornl.gov), 865.576.0850
Abstract
Statistical mechanics plays a central role in predicting the microscopic structure and thermophysical properties of condensed matter and has widespread applications not only in physical sciences but also in computational biology and engineering. In this talk, I will discuss a unified density functional theory (DFT) for complex fluids that aims to account for thermodynamic nonideality due to inter- and intra- molecular interactions in a non-mean-field fashion. The novel free-energy functionals are developed on the basis of a fundamental measure theory for molecular excluded volume effects and recent advancements in liquid-state theories for long-range interactions. In comparison with simulation results, the DFT provides accurate representations of both microscopic structure and thermodynamic properties for a wide variety of complex molecular systems in bulk or at inhomogeneous conditions. Unlike molecular simulations, DFT provides direct information on the free energy from which all thermodynamic properties can be derived. In this talk, I will also discuss the connections of the density functional theory with conventional phenomenological methods in statistical mechanics. Illustrative examples will be given on applications of the DFT to colloids, polymer mixtures and biological systems.
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