Professor

Kenneth Carter photo 2024
Our group is interested in the design and fabrication of advanced materials with highly tailored properties. We possess expertise in synthetic polymer chemistry, surface modification, advanced manufacturing techniques, high resolution roll-to-roll patterning and device fabrication & characterization and work to solve problems impacting a number of technology areas including electronics, optics, sensors, clean air & water, and chemical safety. We also seek to exploit renewable resources, such as nanocellulose, in these advanced materials applications.
Kenneth Carter photo 2024

Professor

E. Bryan Coughlin
We strive, through development of novel, and adaptation of known synthetic methods, to create new polymeric materials with properties suitable for a range of demanding applications. Our projects begin with synthesis and sustainability as a major motivators, however characterization studies to test our hypotheses and to inform the next round of synthetic efforts is also given significant emphasis.
E. Bryan Coughlin

Professor & Department Head

Alfred J Crosby
Guided by fundamental science, Professor Crosby and his research group takes inspiration from examples in nature, as well as ubiquitous yet complex materials such as fabric, to develop and exploit simple, creative, and novel design paradigms that will change the way scientists, engineers, and the general public use and understand materials.
Alfred J Crosby

Associate Professor

Samuel Gido
My research is focused on understanding how controlled polymer molecular architecture can be used to guide the self-assembly and processing of materials in order to create novel and useful structures on a morphological length scale (nanometers to microns).
Samuel Gido

Robert K. Barrett Professor

Steve Granick
Current research projects include active polymers, molecules in extreme environments, biological intelligence and memory of non-neural cells.
Steve Granick

Assistant Professor/ Grad Program Director

Reika Katsumata
At the intersection of chemical engineering and materials science, Katsumata Research Group procures material performance otherwise impossible by “vaporization” of fundamental science and “condensation” of real-world problems, nurtured by education and mentoring.
Reika Katsumata

Professor

Alan Lesser 2024
The goal of our research group is to develop a new set of theoretical and experimental tools that enable the streamlined design, optimization, selection, and evaluation of polymeric materials for such applications. The research initiatives in our group focus on determining what basic molecular, morphological, and physical characteristics govern the engineering performance of polymers and polymer-based composites.
Alan Lesser 2024

Professor

Maria Santore
Discovering mechanisms for adhesion, lubrication, assembly, response, and reconfiguration in soft material systems, focusing on the dynamic interactions of polymers, biomolecules, nanoparticles, colloids, and cells. Coupling material interactions with flow and deformation to control structures and dynamics. Translating new interfacial mechanisms to the application-specific design of responsive / active interfacial materials
Maria Santore

Professor

James Watkins
We develop, characterize and utilize nanoscale and hybrid materials for the fabrication of devices that exploit the unique properties of the materials that we create. Our approaches include direct imprint patterning of device structures using nanoparticle-based inks, additive driven self-assembly with brush block copolymers and other templates in which interactions among each of the components are designed to overcome barriers to creating well-ordered systems, materials chemistry through photothermal processing and the creation of large area nanostructured materials and devices through scalable manufacturing approaches, including roll-to-roll process platforms.
James Watkins