Most materials we use in everyday life expand slightly when heated and return to their original size when cooled. In addition ...

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 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 ...

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 ...

Researchers reveal how memory materials switch electricity on and off by melting and freezing tellurium in nano-devices, enabling faster, energy-efficient semiconductor design. (Nanowerk News) As ...

Applied Materials (AMAT) and Micron Technology (MU) have partnered to develop next-generation memory chips specifically for artificial intelligence. This collaboration focuses on DRAM and ...

Shape-memory polymers are particularly intriguing: These materials can switch between two states -- a harder, low-temperature, amorphous state, and a soft, high-temperature, rubbery state. The bent ...

You can stop skulking around labs trying to get bitten by radioactive spiders – a new breakthrough could make it easier than ever to get Spider-Man’s wall-crawling powers. Scientists in Singapore have ...