Hiden
Analytical present the EPIC series quadrupole mass spectrometers specifically
designed with maximum flexibility for diverse processes and phenomena at UHV
and XHV pressure regimes, with measurement of neutrals, radicals and of both
positive and negative ions. Applications include temperature desorption monitoring
(UHV TPD), molecular beam analysis and laser reaction studies, together with
all of the functions of a high-performance residual gas analyser.
NanoDynamics, Inc. announced that its subsidiary, NanoDynamics Energy, has received a one-year, $1.78 million grant from the Office of Naval Research (ONR) to develop an innovative solid oxide fuel cell (SOFC) system tha...
The NSW Minister for Science and Medical Research Jodi McKay today announced a new program initiative involving UOW that promises to have a huge impact on devices such as mobile phones and digital cameras.
The ministe...
Researchers at the National
Institute of Standards and Technology (NIST) have discovered that a carefully
built magnetic sandwich that interleaves layers of a magnetic alloy with a few
nanometers of silver “spacer” has dramatically enhanced sensitivity, 400-fold improvement in some cases.
Polymers are an essential component of power and telecommunications cables. Ram Ramachandran of Dow Wire and Cable, David Kiddoo of Alphagary Corporation, Dr Jennifer Rust of Borealis and Andreas Farkus of ABB will be ta...
MIT physicists have discovered that several high-temperature superconductors display patchwork quilt-like variations at the atomic scale, a surprising finding that could help scientists understand a new class of unconven...
The futuristic technology of the Six Million Dollar Man -specifically a part metal and part flesh human being - won't be exclusive to Hollywood anymore. While the main character in the Six Million Dollar Man was outf...
Engineers at the National Institute
of Standards and Technology (NIST) are patenting a method that is expected
to double the service life of concrete.
A team of scientists at the U.S.
Department of Energy's (DOE) Brookhaven National Laboratory, in collaboration
with researchers from the University of Delaware and Yeshiva University, has
developed a new catalyst that could make ethanol-powered fuel cells feasible.
Motivated by a $4 million prize from NASA, the scientists found a way to combine multiple separate nanotubes together to form long strands. Until now, carbon nanotubes have been too brittle to be formed into such long pieces.
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