A collaboration led by researchers at Osaka University has developed a nanogate that can be open or shut by applying electricity. The nanogate shows various behaviors depending on the materials in the ...

There are no square brackets and no charges in covalent bonding. Ionic compounds are made from giant repeating arrangements of positive and negative ions forming a three-dimensional lattice.

Osaka University researchers developed an electrically controlled nanogate, enabling precise regulation of ion transport and ...

Seven faculty members from the University of Tennessee, Knoxville have been named to Clarivate’s Highly Cited Researchers ...

Scientists have developed a versatile platform with an electrically controlled nano-gate that can be used for applications in sensing, chemical synthesis, memristors, and neuromorphic computing. The ...

A joint computational and experimental study examined how adding certain dopants to a solid electrolyte could improve its ...

A joint computational and experimental study has examined how adding certain dopants to a solid electrolyte could improve its ...

Scientists at Osaka University have designed a nanogate that opens and closes using electrical signals, offering precise ...

Researchers from SANKEN (The Institute of Scientific and Industrial Research), at Osaka University develop a versatile ...