A team of University of Texas at Arlington researchers have developed a method that uses magnetic carbon nanoparticles to target and destroy cancer cells through laser therapy - a treatment they believe could be effective in cases of skin and other cancers without damaging surrounding healthy cells.
A team of three University of Delaware mechanical engineering professors, plus researchers from three other academic institutions, are collaborating to develop three-dimensional (3D) carbon nanotube structures.
Magnetic resonance imaging (MRI) on the nanoscale and the ever-elusive quantum computer are among the advancements edging closer toward the realm of possibility, and a new study co-authored by a UC Santa Barbara researcher may give both an extra nudge.
The technological world of the 21st century owes a tremendous amount to advances in electrical engineering, specifically, the ability to finely control the flow of electrical charges using increasingly small and complicated circuits. And while those electrical advances continue to race ahead, researchers at the University of Pennsylvania are pushing circuitry forward in a different way, by replacing electricity with light.
An international team of researchers led by scientists at Princeton University made a series of close observations of how liquid spreads along flexible fibers. They were able to construct a set of rules that govern the spreading behavior, including some unexpected results.
Researchers at Oregon State University have discovered a way to make a low-cost material that might accomplish negative refraction of light and other radiation - a goal first theorized in 1861 by a giant of science, Scottish physicist James Maxwell, that has still eluded wide practical use.
A high level pollution is an increasing problem. For that scientists have developed innovative materials that can be easily applied on facades. This could be a significant step towards urban air quality improvement and a beautification of cities.
Scientists devised a novel method of tracking certain molecules inside live cells. This method uses graphene oxide or thin sheet of carbon. The sheets are decorated with apatmers, a specialized molecule that has a strong affinity for its molecular target.
NANOTEC researchers participated as speakers during the visit of science journalist from 8 European nations. The visit is organized under the umbrella of the FP7 funded SEA-EU-NET project, in which NSTDA is a partner, and the ASEAN-EU Year of Science, Technology and Innovation 2012.