Rule number one, have fun. That's the most important rule at the ASM Eisenman Materials Camp each year. The Eisenman Camp is the largest and most elaborate camp sponsored by the ASM Materials Education Foundation each year. The camp features highly interactive, hands-on laboratory activities, including an actual forensic engineering investigation.
As the world's best athletes prepare for today's opening events in Beijing,
China, DuPont innovations in materials science
will be there with them, playing a critical role in delivering maximum performance.
"Ye canna change the laws of physics!" Scotty warned Captain Kirk
on "Star Trek." But engineers and physicists at the University
of Maryland may rewrite one of them.
New research into fuel cells will look at using nanotechnology to power them using sustainable energy sources.
Scientists at the U.S. Department of Energy's Lawrence Berkeley National Laboratory and the University of California at Berkeley have created the world's first all-integrated sensor circuit based on nanowire arrays, combining light sensors and electronics made of different crystalline materials. Their method can be used to reproduce numerous such devices with high uniformity.
A Michigan State University
researcher and his students have developed a nanomaterial that makes plastic
stiffer, lighter and stronger and could result in more fuel-efficient airplanes
and cars.
A new material characterized at the Department of Energy's Oak Ridge National Laboratory could open a pathway toward more efficient fuel cells.
Due to its remarkable electronic properties, few layer graphene, or FLG, has emerged as a promising new material for use in post-silicon devices that incorporate the quantum effects that emerge at the nanoscale. Now, phy...
Physicists at the University of Pennsylvania have characterized an aspect of graphene film behavior by measuring the way it conducts electricity on a substrate. This milestone advances the potential application of graphe...
Using the same technology with which they created the world's first fully functional
nanotube radio, researchers with Berkeley
Lab and the University of California (UC) at Berkeley have fashioned a nanoelectromechanical
system (NEMS) that can function as a scale sensitive enough to measure the mass
of a single atom of gold.
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