Researchers reveal how memory materials switch electricity on and off by melting and freezing tellurium in nano-devices, ...

A new "smart materials" process developed by researchers in the Centre for Advanced Materials Joining based in the department of mechanical and mechatronics engineering at the University of Waterloo ...

As artificial intelligence advances, computers demand faster and more efficient memory. The key to ultra-high-speed, low-power semiconductors lies in the "switching" principle—the mechanism by which ...

The Chalmers researchers used a novel, atomically thin material in tiny memory devices, here seen as clusters of golden dots on the top of the chip. The material combines two opposing magnetic forces ...

Scientists develop the next generation of highly efficient memory materials with atom-level control. Like the flutter of a butterfly's wings, sometimes small and minute changes can lead to big and ...

An ultrathin ferroelectric capacitor, designed by researchers from Japan, demonstrates strong electric polarization despite being just 30 nm thick including top and bottom electrodes—making it ...

[From Materials Innovation to Scalable Industrial Production] Through this agreement, Graphy secures a strategic position beyond a conventional material supplier, becoming the exclusive provider of ...

A significant milestone has been reached in the advancement of non-volatile phase change memory, a form of electronic memory capable of retaining data even when power is disconnected, in a material ...

Researchers develop atom-thin material that cuts memory energy use tenfold, opening the door to ultra-efficient AI, mobile tech and data processing. (Nanowerk News) Memory units are essential ...