Scientists have developed a new method for creating three-dimensional nanoscale devices directly from single crystal materials, potentially transforming the future of electronics.

Scientists have developed a new way to fabricate three-dimensional nanoscale devices from single-crystal materials using a ...

Chemists at UCLA are showing that some of organic chemistry’s most famous “rules” aren’t as unbreakable as once thought. By ...

Research in the lab of UC Santa Barbara materials professor Stephen Wilson is focused on understanding the fundamental ...

Scientists have shown that twisting a crystal at the nanoscale can turn it into a tiny, reversible diode, hinting at a new era of shape-engineered electronics.

Real-time microscopy and AI reveal how atomic wetting controls tin oxide nanowire growth inside carbon nanotubes, uncovering ...

Harvard researchers have found that silica, long thought to lack the right properties for optical metasurfaces, can sometimes ...

For the first time, scientists have recorded electrons in the act of snapping chemical bonds, turning an abstract quantum ...

Researchers at Harvard University, working with collaborators at the University of Lisbon, discovered that low-index silica ...

An unexpected discovery in a Harvard lab has led to a breakthrough insight into choosing an unconventional material, silica, to make optical metasurfaces—ultra-thin, flat structures that control light ...

UCLA researchers have violated Bredt’s rule, a century-old principle of organic chemistry, challenging our understanding of ...