Atomically thin semiconductors such as tungsten disulfide (WS2) are promising materials for future photonic technologies.

Conventional dielectric nanoresonators trap light inside solid materials such as silicon. While effective in many settings, this approach concentrates optical fields away from the surface, where ...

By converting plastic waste into a microbe-friendly food source, scientists have built an upcycling pipeline that turns the waste into a variety of useful products. The findings are detailed in the ...

At first glance, it looks like a plain, slightly glossy sheet. Then it goes through a quick bath, the temperature shifts, and a famous face comes back from nowhere.

NYU researchers have found a way to use light to control how microscopic particles assemble into crystals, effectively ...

With the rapid development of 5G/6G communications and the Internet of Things, electromagnetic interference (EMI) and radiation pollution are ...

With Aaron Button, PITAKA positions the smartphone case as more than protective accessory. The S26 case lineup functions as ...

Vishal Vivek, CEO & Co-founder of Ukhi, turning waste into compostable bioplastics to build a circular economy and end plastic pollution. Plastic’s core problem is not waste; it’s designed to be ...

A single layer of atoms may seem too thin to meaningfully interact with light, yet materials like tungsten disulfide are reshaping what is possible in nanophotonics. Researchers have now found a way ...

Advances in machine learning and shape-memory polymers are enabling engineers to design for mechanical performance first and ...

DNA strands on tiny beads hide and reveal encrypted messages through programmable fluorescence patterns read by flow cytometry.