Xiaoying Liu
Senior Instructional Professors

Xiaoying Liu

  • Senior Instructional Professor & Laboratory Director for Molecular Engineering

  • Contact: liuxy@uchicago.edu
    773.702.5884
  • Office Location:
    Abbott Memorial Hall
    Room 418
    947 East 58th Street
    Chicago, IL 60637

Xiaoying Liu is a senior instructional professor and laboratory director for molecular engineering. Liu's role primarily encompasses designing and implementing undergraduate courses, including the project-based capstone course Engineering Design, along with developing and overseeing the laboratory components for key courses of the major program. Additionally, she serves as the primary instructor in the pre-college academic programs, including Pathways in Molecular Engineering and Collegiate Scholars Program.

Xiaoying Liu received her BS and MS degrees from the Department of Chemistry at Fudan University, Shanghai, China. Her master’s thesis focused on synthetic methodologies for semiconductor nanomaterials and mesoporous materials using block copolymers as structure-directing agents. She got her PhD in physical chemistry with Professor Cynthia Friend from the Department of Chemistry and Chemical Biology at Harvard University in 2009. Her research at Harvard focused on establishing molecular-level understanding of catalytic processes—and the oxidative transformations of hydrocarbons and alcohols, in particular—to provide the framework for the design of environment-friendly and energy-efficient chemical processes.

Liu worked as a postdoctoral associate for three years with Professor Klavs Jensen at the Department of Chemical Engineering at MIT, where she developed continuous flow technologies for heterogeneous catalysis and multistep synthesis in microfluidic systems. She joined the Pritzker School of Molecular Engineering (PME) in 2012 as a senior research scientist, working with Professor Paul Nealey on chemical pattern directed assembly of colloidal nanoparticles to construct multicomponent heterostructures in addressable arrays for nanophotonic materials.