The research team of Dr. Byeongjin Park and Dr. Sang Bok Lee from the Composites & Convergence Materials Research Division at ...

Scientists have developed a new material: an ultra-thin film that can absorb over 99% of electromagnetic waves. The Korea ...

This technology absorbs and eliminates electromagnetic waves ... Additionally, a carbon nanotube thin film with high ...

University of Virginia mechanical and aerospace engineering Ph.D. student Md. Rafiqul Islam and a team of researchers advance ...

All its filters offer excellent durability and longevity and are routinely used across numerous applications and industries.

Transparent, flexible antennas. Today’s 5G frequencies don’t penetrate buildings well, and the need for more antennas to ...

Constructed with these three layers -- a perforated silver substrate, a Bragg mirror, and a PDMS coating -- the film effectively provides cooling while maintaining visibility. In testing, glass with ...

A technology aims to be a "wearable" device for neurons, wrapping around individual nerve fibers to better study and treat ...

This material not only outperforms traditional shielding by minimizing secondary interference but also offers flexibility and ...

In a leap toward more powerful and efficient computer chips, researchers at the University of Virginia have confirmed a key ...