The focus of this integrated research, education, and outreach program is the development of simulation tools capable of modeling the complex electromagnetic environment of high-speed circuits. Key innovations include the use of multi-scale abstraction and introduction of meta-elements to minimize the computational burden.
The mission of this CAREER program is (1) the creation of electrode structures that enhance the reactivity and stability of enzyme bioelectrocatalysts as implemented in high power-density biofuel cells, and (2) the integration of these and other fuel-cell devices into a broad spectrum of education and outreach to promote concepts of engineering product design and new energy systems in communities,
Jeffrey Nanzer will use a five-year, $500,000 CAREER Award to develop dynamic antenna arrays for radar and remote sensing.
This project aims at applying grain-boundary engineering to develop high-temperature structural alloys such as Ni-based superalloy and Ti2AlNb intermetallics. Major objective of the proposed project is to develop better understanding of the inter-relationship of processing steps, grain boundary character distribution (GBCD), and creep behavior of high-temperature structural alloys.
February 19, 2009
Jongeun Choi, assistant professor of mechanical engineering and of electrical and computer engineering, and Jian Ren, assistant professor of electrical and computer engineering, have each received a National Science Foundation (NSF) Faculty Early Career Development (CAREER) Award.
September 1, 2009
Alex Liu, assistant professor of computer science and engineering, has received an NSF CAREER award for his project "Towards High Performance Policy Evaluation."