Originally inspired by graphene, a new class of atomically thin semiconductor materials — such as molybdenum disulfide — promises to enable electronic and optical devices that are smaller and more ...

An unexpected discovery in a Harvard lab has led to a breakthrough insight into choosing an unconventional material, silica, ...

Discover Tokyo Electron’s new semiconductor etching method for faster, greener, and precise chip production. Read more ...

When your winter jacket slows heat escaping your body or the cardboard sleeve on your coffee keeps heat from reaching your ...

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

After more than a decade of research and development, Tokyo Electron Miyagi Ltd. has introduced an innovative semiconductor etching method that achieves etch rates up to five times faster than ...

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

The project has identified concentrations exceeding 2% zirconium oxide and 40ppm hafnium oxide.

The phenomenon where electron spins align in a specific direction after passing through chiral materials is a cornerstone for ...

The electronic structure of atoms and molecules is the series of energy levels that it are possible for a bound electron to occupy. This electronic structure determines many of the defining ...