The funding will be used to develop scalable, cell-free platforms that enable the capture and conversion of carbon dioxide into industrial chemicals, providing manufacturers with a cheaper, more efficient and sustainable means of chemical production.
This past year, in the midst of a global pandemic, nine students in the Molecular Engineering Ph.D. Program (MolE) completed their degrees. Learn how they applied molecular engineering principles to enable a healthier and more sustainable world and what they're up to next.
In this piece for The Conversation, bioengineering professor Albert Folch describes how microfluidic devices use the strange behavior of fluids in tiny spaces to impact medicine, science and the modern world.
Bioengineering startup AltPep advances technology for the early detection and treatment of Alzheimer's and other amyloid diseases.
In a study published in Nature Chemistry, a research team led by MolES faculty member Munira Khalil, professor and chair of chemistry at the UW, has captured the rapid motions of solvent molecules that impact light-driven electron transfer in a molecular complex for the first time. This information could help researchers learn how to control energy flow in molecules, potentially leading to more efficient clean energy sources.
James Carothers, a professor of chemical engineering, and Jessica Ray, a professor of civil & environmental engineering, were both included in Cell Mentor's list of 1,000 inspiring Black scientists.
The Molecular Engineering & Sciences Institute annual report for the 2019-20 academic year is now available. Learn about the work being done at MolES and the MAF by our faculty, students, and staff! The report features a snapshot of our institute, research highlights, faculty awards, our work to address racism in STEM, graduating students, and letters from the MolES and MAF directors.
Read the full report here . Read More
MolES faculty member Cole DeForest and colleagues have developed a technique to modify naturally occurring biological polymers with protein-based biochemical messages that affect cell behavior. Their approach, published in the Proceedings of the National Academy of Sciences, uses a near-infrared laser to trigger chemical adhesion of protein messages to a scaffold made from biological polymers such as collagen, a connective tissue found throughout our bodies.
MolE PhD Student Alex Carr Alex Carr is a 3rd year molecular engineering Ph.D. student co-advised by UW affiliated investigators Drs. Sean Gibbons and Nitin Baliga at the Institute for Systems Biology. We recently spoke with Carr about his research and his experience in the Molecular Engineering (MolE) Ph.D. program.
How did you come to pursue a Ph.D. in molecular engineering?
I got my undergraduate degree in chemistry from UC San Diego where I worked in an x-ray crystallography lab characterizing bacterial enzymes. Read More
Graduate students, staff, and faculty from MolES recently participated in a Reddit Ask Me Anything (AMA) about molecular engineering to help raise awareness about this growing discipline. Redditors from around the globe asked awesome questions - check out some of our favorites!