How “Empty Space” Is Supercharging Atomically Thin Semiconductors

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 ...
optics.org

Programmable Mie voids to boost light-matter interactions

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 ...

What It’s Like to Have a Brain Implant for 5 Years

No one has had a Synchron brain-computer interface longer than Rodney Gorham. He's still finding new ways to use it.
PlasticsToday

How to Choose the Best PTFE-based Material Formulation for Your Application

An expert in fluoropolymers shares insights on sourcing appropriate PTFE-based formulations for demanding industrial applications.

Physicists Finally Observe a 50-Year-Old Theory Come to Life in a 2D Crystal

By cooling an atom-thin magnetic material, physicists have experimentally confirmed a classic 1970s model of two-dimensional magnetism.

Apple Introduces The New MacBook Air With M5; Know Latest Features & How To Order

The world’s most popular laptop gets even better with the incredible performance of M5, double the starting storage, and improved wireless connectivity, packed into a thin, light, and durable aluminum ...