Prof. Edward Maginn is the Keough-Hesburgh Professor in the department of chemical and biomolecular engineering at the University of Notre Dame. He received his B.S. in chemical engineering from Iowa State University and his Ph.D. in chemical engineering from the University of California, Berkeley. His research focuses on the development and use of atomistic molecular dynamics and Monte Carlo simulation methods to study the thermodynamic and transport properties of materials, with special emphasis on ionic systems important in energy and environmental applications. He has won a number of awards, including the Early Career Award from the Computational Molecular Science and Engineering Forum of the American Institute of Chemical Engineers, the American Society for Engineering Education Dow Outstanding New Faculty Award, the BP College of Engineering Outstanding Teacher Award and the National Science Foundation Career award. He is a Fellow of the American Association for the Advancement of Science and the American Institute of Chemical Engineers and is a trustee and president of the non-profit CACHE (Computer Aids for Chemical Engineering) Corporation.

Prof. Jeffrey Errington is a Professor within the Department of Chemical and Biological Engineering at the University at Buffalo. He also serves as the Associate Dean for Undergraduate Education within the institution's School of Engineering and Applied Sciences. Errington joined the University at Buffalo in 2001 after receiving his B.S. in chemical engineering from the University at Buffalo, a Ph.D. in Chemical Engineering from Cornell University, and subsequently studying as a post-doctoral fellow within the Department of Chemical Engineering at Princeton University. His research focuses on the development and application of atomistic molecular simulation methods to study the phase and interfacial behaviors of complex fluids. Current projects focus on the prediction of interfacial properties associated with carbon dioxide sequestration, understanding wetting phenomena related to enhanced oil recovery, and probing the phase and interfacial behaviors of room temperature ionic liquids. His research group is also active in the development of free-energy-based molecular simulation methods for computing the interfacial properties of model systems. He is a Trustee of CACHE (Computer Aids for Chemical Engineering) Corporation, member of the American Chemical Society, and a senior member of the American Institute of Chemical Engineers, where he serves as the Past-Chair of the Computational Molecular Science and Engineering Forum (CoMSEF).

Strain Controlling Catalytic Efficiency of Water Oxidation for Ni1-xFexOOH alloy.- The Role of Entropy in the Structural Transitions in Zeolitic Imidazolate Frameworks.- Coarse-grained modeling and simulations of thermoresponsive biopolymers and polymer nanocomposites with specific and directional interactions.- Dissipative Particle Dynamics Approaches to Modeling the Self-Assembly and Morphology of Neutral and Ionic Block Copolymers in Solution.- The Statistical Mechanics of Solution-phase Nucleation: CaCO3 Revisited.- Efficient Sampling of High-Dimensional Free Energy Landscapes: A Review of Parallel Bias Metadynamics.