A new nanotech catalyst developed by McGill University Chemists Chao-Jun Li, Audrey Moores and their colleagues offers industry an opportunity to reduce the use of expensive and toxic heavy metals.
Catalysts are subst...
A collaboration between researchers at Northwestern University's Center for Catalysis and scientists at Oxford University has produced a new approach for understanding surfaces, particularly metal oxide surfaces, wid...
The oxidation of toxic carbon monoxide (CO) to carbon dioxide occurs every day in millions of cars. Despite being one of the most studied catalytic processes, the exact mechanism of interaction between the carbon monoxid...
An exotic form of carbon has been found to have an extra large nucleus, dwarfing even the nuclei of much heavier elements like copper and zinc, in experiments performed in a particle accelerator in Japan. The discovery is reported in the current issue of Physical Review Letters and highlighted with a Viewpoint by Kirby Kemper and Paul Cottle of Florida State University in the February 8 issue of Physics.
A group of Marshall University researchers and their colleagues in Japan are conducting research that may lead to new ways to move or position single molecules-a necessary step if man someday hopes to build molecular machines or other devices capable of working at very small scales.
On February 19th a conference will be held at the Royal Library in Copenhagen, Denmark about the construction and use of the European Spallation Source, the next generation materials research facility to be built in Lund...
FUJIFILM Corporation (President and CEO: Shigetaka Komori) has announced that in cooperation with IBM Corporation (New York, U.S.A.), the two companies have demonstrated a world record in areal density on linear magnetic...
X-rays can do a lot of useful things -- detect broken bones, tumors and dental cavities, analyze atoms in diverse materials and screen luggage at airports -- but who knew they could cause crystals to form?
A team of ...
Physicists have long wondered whether hydrogen, the most abundant element in the universe, could be transformed into a metal and possibly even a superconductor - the elusive state in which electrons can flow without resi...
Scientists at Max Planck Institute of Plasma Physics (IPP) in Garching and Greifswald and Fritz Haber Institute in Berlin have discovered a new way in which high-energy radiation in water can release slow electrons. Thei...
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