Professor and Associate Chair for Graduate Studies; Thomas A. Fanning Chair in Equity Centered Engineering; ; and ADVANCE Professor, College of Engineering
Telephone
Office Building
ES&T 1212
Office Room Number
1212
Biography

Research Interests:

  • Feedback control of colloidal crystallization for photonic materials
  • Chemical evolution in the origins of life
  • Modeling and control of pharmaceutical and nuclear waste crystallization
  • Process-structure-property relationships in polymer organic electronics

Dr. Grover’s research activities in process systems engineering focus on understanding macromolecular organization and the emergence of biological function. Discrete atoms and molecules interact to form macromolecules and even larger mesoscale assemblies, ultimately yielding macroscopic structures and properties. A quantitative relationship between the nanoscale discrete interactions and the macroscale properties is required to design, optimize, and control such systems; yet in many applications, predictive models do not exist or are computationally intractable.

The Grover group is dedicated to the development of tractable and practical approaches for the engineering of macroscale behavior via explicit consideration of molecular and atomic scale interactions. We focus on applications involving the kinetics of self-assembly, specifically those in which methods from non-equilibrium statistical mechanics do not provide closed form solutions. General approaches employed include stochastic modeling, model reduction, machine learning, experimental design, robust parameter design, and estimation.

Education
B.S. 1996, University of IllinoisM.S. 1997, California Institute of TechnologyPh.D. 2003, California Institute of Technology