Beckman Coulter, Inc. (NYSE: BEC), a leading developer, manufacturer, and marketer of products that simplify, automate, and innovate complex biomedical tests, and Olympus Corporation, a Tokyo-headquartered precision tech...
Piezoelectric elements have a myriad of uses. They can be used in laser mirror
alignment, or to reduce vibrations in a structure.
Lightning is expected to strike at the 79th International Motor Show in Geneva – but only figuratively speaking. LAMPO – "lightning" – is the name of the environmentally friendly sports car prototype that is certain to a...
FUJIFILM Corporation has developed "transparent super high barrier film" that offers the world's highest level of moisture barrier property with transparency. The film is essential for flexible electronic d...
While the technology to make computer chips smaller and cheaper progresses
each year, the fundamental structure of the chip – the computer architecture
– has remained the same for decades. This led Professor David May in the
Department of Computer Science at The
University of Bristol to think about what a computer chip should look like
for the twenty-first century.
The ability of plants to turn sunlight into energy through photosynthesis has been successfully mimicked by scientists at the University of Southampton to produce a new generation of solar cells.
The Southampton team ...
When squeezed, electrons increase their ability to move around. In compounds
such as semiconductors and electrical insulators, such squeezing can dramatically
change the electrical and magnetic properties.
A team of researchers led by George Barbastathis, associate professor of mechanical
engineering, is developing the basic principles of "nano-origami,"
a new technique that allows engineers to fold nanoscale materials into simple
3-D structures.
Scientists and engineers the world over have thought for years that the next
generation of smaller, more-efficient electronic and photonic devices could
be based on the use of carbon nanotubes, structures 10,000 times thinner than
a human hair but with tremendous potential.
Super-thin films of carbon with exotic properties, now taking the scientific world by storm, may soon mean a new era of brighter, faster, and smaller computers, smart phones, and other consumer electronics. Brighter digi...
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