RTI International has developed a revolutionary lighting technology that is more energy efficient than the common incandescent light bulb and does not contain mercury, making it environmentally safer than the compact fluorescent light (CFL) bulb.
Stuart Lindsay, Arizona State University Regents' professor and director of the Biodesign Institute's Center for Single Molecule Biophysics, has just released the first comprehensive guide to a tiny world a milli...
Stephan Link wants to understand how nanomaterials align, and his lab's latest work is a step in the right direction.
Link's Rice University group has found a way to use gold nanorods as orientation sensors b...
A mystical glow emanates from the display case. A white light appears out of nowhere. And a light source is invisible - at least at first glance. Only upon close examination does the source of the apparently supernatural...
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.
Currently, researchers are working hard to find new approaches to overcome the physical limits on downscaling and integration of microchips. One such concept is to fabricate a completely new transistor architecture in three-dimensions. In this concept, instead of arranging them flat on the substrate the silicon transistors are turned by 90 degrees so that they stick out of the chip substrate like tiny columns. In this way, numerous vertical transistors could be built on the area normally occupied by only one planar transistor. This would finally be the step from micro to nanoelectronics.
As researchers around the world hasten to employ nanotechnology to improve production methods for applications that range from manufacturing materials to creating new pharmaceutical drugs, a separate but equally compelling challenge exists.
Researchers in the Electro-Optics Center (EOC) Materials Division at Penn State have produced 100mm diameter graphene wafers, a key milestone in the development of graphene for next generation high frequency electronic devices.
Bayer MaterialScience has opened a new pilot facility for the manufacture of carbon nanotubes (CNTs) at CHEMPARK Leverkusen. The company has invested some EUR 22 million in the planning, development and construction of t...
Based on feedback from customers, TEMwindows.com is introducing several new TEM window formats to better meet the imaging and analysis needs of nanoresearchers. 100 micron thick frame formats are now available for many p...
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