Jennifer A. Lewis
Jennifer A. Lewis, Sc.D.
Core Faculty Member
Jennifer has made pioneering contributions to the directed assembly of soft functional materials. Her work integrates materials synthesis, complex fluids, microfluidics, and robotic assembly to design and pattern functional materials with controlled composition and architecture on multiple length scales (~100 nm - 1 mm). These novel materials may find potential application as printed electronics, waveguides, and 3D scaffolds and microvascular architectures for cell culture and tissue engineering. To date, Jennifer and her team have developed new classes of concentrated colloidal, fugitive organic, polymer, hydrogel, and sol-gel inks for pen-on-paper, inkjet, roll-to-roll and 3D printing. To expedite the transformation of 3D printing from a prototyping to a manufacturing platform, her team has recently demonstrated high throughput printing of multiple materials via multinozzle arrays. Given this broad range of research, she is active in most of the Wyss Institute enabling technology platforms: Adaptive Material Technologies, Bioinspired Robotics, Biomimetic Microsystems, Anticipatory Medical & Cellular Devices and Programmable Nanomaterials. Additionally, she has been actively engaged in Science, Technology, Engineering, and Mathematics (STEM) education and outreach for nearly two decades.
Jennifer is the Hansjörg Wyss Professor of Biologically Inspired Engineering at Harvard's School of Engineering and Applied Sciences. She earned a Sc.D. in Ceramic Science from the Massachusetts Institute of Technology. She has received numerous distinctions, including the NSF Presidential Faculty Fellow Award, the Brunauer Award from the American Ceramic Society, the Langmuir Lecture Award from the American Chemical Society and the Materials Research Society Medal. She is a Fellow of the American Ceramic Society, the American Physical Society, the Materials Research Society, and the American Academy of Arts and Sciences. She serves on the Editorial Advisory Boards of Advanced Functional Materials and Soft Matter. She has authored 120 papers and holds eight patents.