Shape-memory metals, which can revert from one shape to a different one simply by being warmed or otherwise triggered, have been useful in a variety of applications, as actuators that can control the ...

Long gone are the days where all our data could fit on a two-megabyte floppy disk. In today's information-based society, the increasing volume of information being handled demands that we switch to ...

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 ...

A research team led by Kyushu University has developed a new fabrication method for energy-efficient magnetic random-access memory (MRAM) using a new material called thulium iron garnet (TmIG) that ...

Researchers at EPFL have discovered a material that seems to be able to “remember” all of its past encounters with stimuli, such as electrical currents. The compound could come in handy for better ...

Twisted graphene stores memory by combining strain-induced hysteresis and nonlinear response, enabling reprogrammable, low power memory in a pure carbon system. (Nanowerk Spotlight) Electronic memory ...

Note: Removal of CeraMemory and CeraTape per company request. This article discusses two interesting memory (and spin-based logic) announcements. At the 2023 SNIA Storage Developers Conference (SDC) a ...

Engineers have created shape-memory materials made of ceramic rather than of traditional metal. The development opens a new range of applications, especially for actuators in high-temperature settings ...

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 ...