Nanoparticles of tungsten carbide and tungsten carbide cobalt can enter cultured
mammalian cells. These are the findings of a study conducted by researchers
from the University of Dresden, the Leipzig-based Helmholtz
Centre for Environmental Research and the Fraunhofer Institute for Ceramic
Technologies and Systems in Dresden.
Thirty-one years ago, a celebration of materials and metallurgy's role in the vibrancy of the economy of Connecticut began - and it's still going strong with the support of local engineering societies and manufac...
Veeco
Instruments Inc. announced today that three of its technology
experts will make presentations at worldwide solar industry events and tradeshows
in May 2009.
HarrisMartin Publishing, a premier provider of legal news and continuing legal education conferences, announced today that it will host the nation's first-ever Chinese Drywall Litigation Conference, June 4 and 5 at t...
A University of Toronto research team from the Department of Chemistry has discovered useful "green" catalysts made from iron that might replace the much more expensive and toxic platinum metals typically used ...
Alcoa's Kawneer business, the leading manufacturer of architectural aluminum building products and systems for commercial construction, has introduced a new institutional solutions brochure that offers architects an ...
Also called Plastic Electronics, Organic electronic deals with organic polymers or plastics that are conductive in nature. These polymers are called 'organic', as they are made from carbon-based molecules. This i...
Americas Watchdog, and its Homeowners Consumer Center is calling on President
Obama to get personally involved with what is about to become the worst homeowner
environmental disaster in US history. According to the group, "we are certain
this imported toxic Chinese drywall affects 100,000's of new, or remodeled US
homes, we know the drywall is emitting toxic gases, that are strong enough to
degrade copper, silver, and other metals, and most importantly homeowners, their
children, or family members are getting really sick.
Recent experiments to create a fast-reacting explosive by concocting it at
the nanoscopic level could result in more spectacular firework displays. But
more impressive to the Missouri
University of Science and Technology professor who led the research, the
method used to mix chemicals at that tiny scale could lead to new strong porous
materials for high temperature applications.
Physicists at the National Institute
of Standards and Technology (NIST) have demonstrated a new ion trap that
enables ions to go through an intersection while keeping their cool. Ten million
times cooler than in prior similar trips, in fact.
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