Ritesh Agarwal: Silicon Nanophotonics: Turn Off the Dark
Agarwal briefly discusses the amazing progress made in the area of computer technology outlining some key advances leading to the development of modern computers.
Shu Yang Receives PMSE Arthur K. Doolittle Award
Shu Yang, associate professor in the Department of Materials Science and Engineering, has been chosen, along with her group, to receive the Arthur K. Doolittle Award from the American Chemical Society, Division of Polymeric Materials Science and Engineering (PMSE) for the paper entitled “Understanding pattern transformation mechanisms in different responsive hydrogel membranes.” This award is given to […]
Turning Light into Electrical Current
Material scientists at the Nano/Bio Interface Center have demonstrated the transduction of optical radiation to electrical current in a molecular circuit. The system, an array of nano-sized molecules of gold, responds to electromagnetic waves by creating surface plasmons that induce and project electrical current across molecules, similar to that of photovoltaic solar cells. Dawn Bonnell, […]
Ritesh Agarwal: Accelerating Advances in Electronic Memory
The race to create next-generation computer memory devices that are off-the-charts smaller, faster and more stable than current memory technologies has entered promising new territory thanks to recent innovations in Ritesh Agarwal’s lab. Agarwal, Assistant Professor in Materials Science and Engineering, has pioneered a technique for fabricating self-assembled nanowires. His breakthrough was published in October […]
Producing Nanoscale Patterns, In One Step
Shu Yang’s latest discovery in the field of nanoscale polymer science may be her most significant yet. It was also something of an accident. Yang, an associate professor of materials science and engineering, initially set out with her students to study the intrinsic properties of a flexible polymer membrane called polydimethylsiloxane, or PDMS. The silicone […]