Lisa Biswal
Senior Associate Dean of Engineering
William M. McCardell Professor in Chemical Engineering
Rice University
Dr. Biswal is a the William M. McCardell Professor in Chemical and Biomolecular Engineering (CHBE) with a joint appointment in Material Science and Nanoengineering (MSNE). She also serves as Senior Associate Dean in the George R. Brown School of Engineering. Biswal joined the Rice faculty in 2006. She earned her doctorate in chemical engineering from Stanford University in 2004 and received her undergraduate degree in chemical engineering at the California Institute of Technology. She completed her postdoctoral research in mechanical engineering at the University of California at Berkeley. She has been previously awarded the Young Investigator Award from the Office of Naval Research and a National Science Foundation CAREER Award. She has received the George R. Brown Award for Superior Teaching. She has advised 30+ doctoral students and published 130+ peer-reviewed publications in the area of colloidal and interfacial phenomena.
The overarching goal of Dr. Biswal's research program is understanding the fundamental physics that govern colloids, surfactants, lipids, and polymers. The interactions governing these “soft” materials are on the order of thermal motion; therefore, these materials self-assemble at mesoscopic length scales and are readily deformed by externally applied force fields. Her primary focus is understanding the chemical and physical properties and dynamics of these materials and then engineer these materials and processes to solve both fundamental and applied problems. She has four major research areas: (i) magnetically directed colloidal assemblies, (ii) multiphase fluid flow using microfluidic systems, (iii) biomimetic interfacial interactions, (iv) inorganic-organic composites for energy storage. This fundamental understanding of the surface forces and rheology governing these soft matter systems allows her group to engineer new solutions for a variety of important technological problems.