Matthew Doty, assistant professor in the Department of Materials Science and
Engineering at the University
of Delaware, has received a National Science Foundation Faculty Early Career
Development Award for his work on quantum dot molecules.
An innovative and easily implemented technique in which nanoscale elements
precisely assemble themselves over large surfaces could soon open doors to dramatic
improvements in the data storage capacity of electronic media, according to
scientists.
Physicists at Rutgers University have discovered unusual electronic properties in a material that has potential to improve solar cell efficiency and computer chip design.
The scientists determined that a crystal made ...
A new study on the installed costs of solar photovoltaic (PV) power systems
in the U.S. shows that the average cost of these systems declined significantly
from 1998 to 2007, but remained relatively flat during the last two years of
this period.
A new report on South Australia’s research and development capabilities in advanced manufacturing suggests that defence, health and ‘clean’ technologies are key areas for future development.
Prelimin...
Konarka Technologies, Inc., an innovator in development and commercialization of Konarka Power Plastic®, a material that converts light to energy, today announced the company has received $5 million in financing in c...
T-Solar Global S.A. announced today that it has begun volume production of
the world's largest solar photovoltaic (PV) modules using a SunFab™ Thin
Film Line.
Applied Materials
today held its 2009 financial analyst day in New York City. Applied's executive
team discussed the company's plans for preserving its strong financial position
in the current economic crisis while investing hundreds of millions of dollars
in R+D to extend its leadership in semiconductors, LCD display, crystalline
silicon and thin-film solar, and other energy and environmental products.
Diamond-like carbon films created at Sandia
National Laboratories are helping probe the far boundaries of the solar
system as part of a NASA mission to study how the sun's solar wind interacts
with the interstellar medium - the matter that exists between the stars within
a galaxy.
A new imaging technique developed by researchers at the University of Illinois overcomes the limit of diffraction and can reveal the atomic structure of a single nanocrystal with a resolution of less than one angstrom (l...
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