Faculty and Staff
|Title:||Director of Graduate Studies, Chemical Engineering
College of Engineering and Computing
Swearingen Engineering Center
301 Main Street
Columbia, SC 29208
CV of Dr. Heyden
Ph.D., Hamburg University of Technology, 2005
Diplom, Hamburg University of Technology, 2000
Our primary research interests are in the areas of nanomaterial science and heterogeneous catalysis. Our goal is to use computer simulations to obtain a deeper - molecular - understanding of key issues in these areas, such as the self-assembly process in catalyst synthesis, the structure of small metal clusters on high-surface-area supports, and the structure-performance relationship of single-site heterogeneous catalysts. The goal of our research is to elucidate the physical effects that must be considered for the design and production of highly selective heterogeneous catalysts with a long lifetime. Due to the high selectivity and activity of designed catalytic materials, chemical processes can make better use of the world's limited resources and become more environmentally benign.
Despite significant advances in computer algorithms and the increasing availability of computational resources, molecular modeling and simulation of large, complex systems at the atomic level remains a challenge and is currently limited to relatively simple, well-defined materials. To enable simulations of complex systems that accurately reflect experimental observations, continued advances in modeling potential energy surfaces and statistical mechanical sampling are necessary. While studying systems relevant for catalysis, we develop new theoretical and computational tools for the investigation of these complex chemical systems. Our tool development efforts are at the interface between engineering, chemistry, and physics, and are rooted in classical, statistical, and quantum mechanics with a special focus on novel multiscale methods.
- M. Faheem, A. Heyden, "Hybrid Quantum Mechanics/Molecular Mechanics Solvation Scheme for Computing Free Energies of Reactions at Metal-Water Interfaces", J. Chem. Theory Comput. 10, 3354 - 3368, 2014.
- S. Suthirakun, S. C. Ammal, A. B. Munoz-Garcia, G. Xiao, F. Chen, H.-C. zur Loye, E. A. Carter, A. Heyden, "Theoretical Investigation of H2 Oxidation on the Sr2Fe1.5Mo0.5O6 (001) Perovskite Surface under Anodic Solid Oxide Fuel Cell Conditions", J. Am. Chem. Soc. 136, 8374 - 8386, 2014.
- S. Behtash, J. Lu, M. Faheem, A. Heyden, "Solvent Effects on the Hydrodeoxygenation of Propanoic Acid over Pd (111) Model Surfaces", Green Chemistry 16 (2), 605 - 616, 2014.
- S. Aranifard, S. C. Ammal, A. Heyden, "On the Importance of Platinum-Ceria Interfaces for the Water-Gas Shift Reaction," J. Catal. 309, 314 - 324, 2014.
- S. C. Ammal, A. Heyden, "Origin of the Unique Activity of Pt/TiO2 Catalysts for the Water-Gas Shift Reaction", J. Catal. 306, 78 - 90, 2013.