An ultrathin ferroelectric capacitor demonstrates strong electric polarization despite being just 30 nm thick including top ...

An ultrathin ferroelectric capacitor, designed by researchers from Japan, demonstrates strong electric polarization despite ...

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 ...

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 ...

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 ...

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 ...

New research from the University of Pennsylvania published in Nature Physics details the relationship between a disordered material’s individual particle arrangement and how it reacts to external ...

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 ...

New research details the relationship between particle structure and flow in disordered materials, insights that can be used to understand systems ranging from mudslides to biofilms. New research from ...