By converting plastic waste into a microbe-friendly food source, scientists have built an upcycling pipeline that turns the ...

Conventional dielectric nanoresonators trap light inside solid materials such as silicon. While effective in many settings, ...

Many homeowners invest heavily in landscaping, exterior finishes, and architectural upgrades, but those features often ...

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

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

Generative AI decouples sports highlights from authentic revenue. Onchain IP verification turns abundance into programmable ...

At first glance, it looks like a plain, slightly glossy sheet. Then it goes through a quick bath, the temperature shifts, and ...

The researchers turned to hydrogels, which are water-rich, jelly-like polymers that respond to temperature and chemicals. But ...

A new research review looks at the technologies behind 3D printed meat and what must happen before it scales.

Robots are usually built from materials with fixed properties. Once a robot is assembled, its stiffness, flexibility and movement patterns are largely locked in. Engineers at Duke University are now ...

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 ...

Mechanical engineers at Duke University have demonstrated a proof-of-concept method for programming mechanical properties into solid Lego-like building blocks. By controlling the solidity of hundreds ...