Efficient method for making single-atom-thick, wafer-scale materials opens up opportunities in flexible electronics. Since the 2003 discovery of the single-atom-thick carbon material known a... Read more
Researchers at The University of Texas at Austin have devised a new method for enriching a group of the world’s most expensive chemical commodities, stable isotopes, which are vital to medic... Read more
Allowing objects to become undetectable to radio sensors over a greater range of frequencies Researchers at The University of Texas at Austin have proposed the first design of a cloaking dev... Read more
A new palm-sized microarray that holds 1,200 individual cultures of fungi or bacteria could enable faster, more efficient drug discovery, according to a study published in mBio®, the online... Read more
The storage capacity of hard disk drives could increase by a factor of five thanks to processes developed by chemists and engineers at The University of Texas at Austin. The researchers’ tec... Read more
Have the potential to replace electronic circuits have the potential to replace electronic circuitsPhysicists at The University of Texas at Austin, in collaboration with colleagues in Taiwan... Read more
Medical ‘Lightsabers’ – 5 years away Whether surgeons slice with a traditional scalpel or cut away with a surgical laser, most medical operations end up removing some healt... Read more