Imagine navigating a pitch-black room and knowing exactly where every object is without ever switching on a light.

A team of NYU chemists and physicists are using cutting-edge tools—holographic microscopy and super-resolution imaging—to unlock how cells build and grow tiny, dynamic droplets known as biomolecular ...

Researchers show how blister shapes in atomically thin materials like graphene can be used to map pressure, membrane tension, ...

New simulations reveal that an ancient ocean of magma located above the Earth's core continues to shape the planet's ...

The Langlands programme has inspired and befuddled mathematicians for more than 50 years. A major advance has now opened up ...

Apple's Lossless output, written with the capital 'L', means better-than-CD resolution up to 24-bit/48kHz, or 2,304 kbps ...

Researchers have described how fish larvae rely on species-specific combinations of vision and movement to detect and capture ...

Happy Fall” is a celebration of the art of stage combat and stunt work on film.  Audiences owe a huge debt to the men and ...

Her new installation at the Bechtler Museum of Modern Art in uptown Charlotte, Biggs invites visitors to experience art not ...

Researchers have developed a new family of remarkably stable chiral molecules. This work opens up new prospects for the ...

Can you imagine a life-saving molecule whose “twin” is a deadly poison? As surprising as it may seem, this chemical reality is known as “chirality”. Like a right hand and a left hand, two molecules ...

Chemists at the University of Geneva and University of Pisa have crafted a novel family of chiral molecules whose mirror-image “handedness” remains rock-solid for tens of thousands of years. By ...