University of Illinois, Urbana-Champaign
California Institute of Technology, Pasadena
North Carolina A&T State University, Greensboro
Stanford University, Palo Alto
Research in the Center for Nanoscale Chemical-Electrical-Mechanical Manufacturing Systems (Nano-CEMMS) addresses a
central problem in the development of nanotechnology: how to assemble structures at sizes smaller than can be seen (or
transduced) and manipulated (or transcribed). Making three-dimensional, nanoscale devices and systems from millions to
trillions of different types of molecules is incredibly difficult. The Center’s goal is to develop a reliable, robust
and cost-effective nanomanufacturing system to make nanostructures from multiple materials. This technology will allow
advancements and discoveries in nanoscience to move from the laboratory to production.
The Nano-CEMMS Center is a partnership of the University of Illinois, the California Institute of Technology, Stanford
University, and North Carolina Agricultural and Technological State University. Each partner offers unique facilities,
eminent scholars and financial resources to support the Center’s research.
One of the Center’s core missions is to develop a diverse U.S. workforce of educators, scientists, engineers, and
practitioners to advance nanomanufacturing technology in the U.S. and beyond. Nano-CEMMS provides a wide range
of human resource development activities targeted toward increasing both the diversity of students involved with the
Center and educational opportunities at the K-12 and undergraduate levels, as well as providing graduate students with
teaching experience in an emerging field. In addition, both undergraduate and graduate students have opportunities to
participate in the Center’s work through research assistantships and independent study projects.
Engineering Career Day
Saturday the 27th from 10:00 AM to 3:00 PM St. Louis Science Center
In the Nano News
Investiture of Professor John A. Rogers Congratulations to Professor John A. Rogers on his investiture as the Lee J. Rory Founder Chair in Engineering Innovation.
Read more...
Nano-Nugget An Electrohydrodynamic Printing Approach to Sub-Micron Scale Fabrication We have developed approaches that exploit the physics of controlled, electrohydrodynamically induced fluid flows through fine microcapillary nozzles for jet printing of patterns and functional devices with sub-micron resolution. Read More…
