The global carbon nanomaterials market is experiencing rapid growth, poised to revolutionize sectors like energy storage, electronics, and healthcare through innovations in materials such as graphene, ...

Researchers have developed a noninvasive method to create light anywhere in the body. Their technique, which uses ultrasound waves to activate light-emitting nanoparticles, could be used to manipulate ...

I was honored to attend the AIMBE Meeting celebrating Dr. Daniel Chiu’s induction. We look forward to welcoming AIMBE ...

Light has an increasing number of applications in biology and medicine—it can be used to stimulate cell growth, manipulate ...

Beginning in the 1950s, silicon transformed the electronics industry by enabling smaller and faster devices that could be ...

The Federal Government and stakeholders in the energy sector have been called upon to intensify investments and research in ...

Out of a unique university ecosystem, academic breakthroughs are catalyzing startup innovation. Discover how Arizona planned ...

Researchers at Stanford have developed a noninvasive method to create light anywhere in the body. Their technique, which uses ultrasound waves to activate light-emitting nanoparticles, could be used ...

Getting a therapeutic gene into the right cell has been one of medicine’s most stubborn problems, especially in the brain and ...

Frank Würthner, a professor of chemistry at the University of Würzburg, receives the Izatt-Christensen Award, the highest ...

Fiber optic SERS probes, called “optrodes,” combine spectroscopy with the flexibility and versatility of fiber optic cables.