However, there is a very serious problem with this; the nervous system is soft and flexible, while traditional electronic ...

Scientists at Nagoya University in Japan have developed a new method to grow tiny metal nanowires (NWs) that could be ...

A group from Nagoya University in Japan has created a new technique for growing the tiny metal nanowires (NWs) that are ...

FineHeart S.A, a clinical-stage medtech company developing breakthrough solutions for cardiology, is pleased to announce the ...

A breakthrough technique for growing minuscule metal nanowires (NWs) has been developed by a research team at Nagoya ...

Pure metal nanowires (NWs) are nanomaterials with distinctive properties that make them useful for various applications. However, their utilization in modern electronics has been limited by the lack ...

Nanowires are structures with a width and depth of a few nanometres or less, but a much longer length. Electrons in these materials are free to travel along the wire, but their motion in the other ...

Semiconductor nanowires, by definition, typically have cross-sectional dimensions that can be tuned from 2–200 nm, with lengths spanning from hundreds of nanometres to millimetres. These ...

Silvaco Group, Inc. (Nasdaq: SVCO, “Silvaco” or the “Company”), a provider of TCAD, EDA software, and SIP solutions that enable semiconductor design and digital twin modeling through AI software and ...

UNC-Chapel Hill invented more efficient way to split water into hydrogen and oxygen using only sunlight and water.

A team from Nagoya University in Japan has developed a novel method for producing the small metal nanowires (NWs) anticipated ...

A new technique for growing metal nanowires promises to transform electronics manufacturing. By increasing the density of ...