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17.03.2010 Hydrogen Storage Issues Could Be Solved By Layered Graphene Sheets
Graphene - carbon formed into sheets a single atom thick - now appears to be a promising base material for capturing hydrogen, according to recent research at the National Institute of Standards and Technology (NIST) and the University of Pennsylvania. The findings suggest stacks of graphene layers could potentially store hydrogen safely for use in fuel cells and other applications.
20.10.2010 Taking the next step with graphene research
The 2010 Nobel Prize in Physics went to the two scientists who first isolated graphene, one-atom-thick crystals of graphite. Now, an investigator with the University of Houston Cullen College of Engineering is finding success in his work to develop a method to mass-produce this revolutionary material.
12.02.2010 Development of Materials with Large Specific Surface Areas by Using Single-walled Carbon Nanotubes
Kenji Hata (Leader), Super Growth CNT Team, the Nanotube Research Center (Director: Sumio Iijima), Hiroaki Hatori (Senior Research Scientist), Energy Storage Materials Group, the Energy Technology Research Institute (Director: Hiroo Hasegawa), and others of the National Institute of Advanced Industrial Science and Technology (AIST) (President: Tamotsu Nomakuchi) have developed a fibrous material with a specific surface area of 2240 m2/g by using single-walled carbon nanotubes (SWCNTs).
13.03.2015 Single layer graphene electrodes
Replacing indium tin oxide with graphene for high efficiency quantum dot light emitting diodes.
18.02.2010 Cargo carrier of the cells is life"s smallest motor
Life's smallest motor, a protein that shuttles cargo within cells and helps cells divide, does so by rocking up and down like a seesaw, according to research conducted by scientists at the U.S. Department of Energy's Lawrence Berkeley National Laboratory and Brandeis University.
02.08.2010 University of Aberdeen Collaborates with IBM to Identify Molecules from the Deep Sea
In a pioneering research project, for the first time, scientists at IBM (NYSE: IBM) and the University of Aberdeen have collaborated to "see" the structure of a marine compound from the deepest place on the Earth using an atomic force microscope (AFM). The results of the project open up new possibilities in biological research.
08.10.2010 Magnetic resonance imaging zooms in on microscopic flow
"Better and faster results!" is the clarion call for scientists and engineers to continually strive to improve their research tools. Of the tools used to study material structures at the atomic and molecular scales, there is none finer than Nuclear Magnetic Resonance (NMR) spectroscopy and its daughter technology Magnetic Resonance Imaging (MRI).
08.10.2010 Researchers examine material bonding at the atomic level
An approach pioneered by researchers at North Carolina State University gives scientists new insight into the way silicon bonds with other materials at the atomic level. This technique could lead to improved understanding of and control over bond formation at the atomic level, and opportunities for the creation of new devices and more efficient microchips.
02.05.2012 Researchers Develop Path to Liquid Solar Cells
Scientists at the University of Southern California have developed a potential pathway to cheap, stable solar cells made from nanocrystals so small they can exist as a liquid ink and be painted or printed onto clear surfaces.
14.08.2015 Graphene oxide films get reduced
rG-O could come in use for a wide range of practical applications including coatings, protective layers, energy storage systems and membranes.