Materials innovation drives next-gen AI chips, enabling performance, efficiency and scalability.

Traditional chips depend on flat, inflexible wafers; the Fudan team replaced these with elastic substrates capable of hosting resistors, capacitors, diodes, and transistors. Once patterned, each ...

Fiber-based chip Photo: file. Constructing high-density integrated circuits within a fiber thinner than a human hair — a Chinese research team from Fudan University has pioneere ...

Semicon USA highlights how chips are central to new tech like AI and faster internet. The way chips are put together, called advanced packaging, is changing chip design and making things more ...

In this system, the implanted computer chip would not just sit on the brain, but become part of the brain. Using a technology Hodak calls the biohybrid model, the chip would be seeded with stem cells ...

Chinese scientists have developed fully flexible fiber chips that embed complete electronic circuits inside ...

It's been a long time since Alice Charton got a good look at a human face. There are plenty of people moving through her world, of course—her husband, her friends, her doctors, her neighbors—but ...

A recent report by a team of physicists at McGill University concluded that in order to build smaller yet still high-performing computer chips, designers will need to focus on better understanding how ...

A novel magnetic material with an extraordinary electronic structure might allow for the production of smaller and more efficient computer chips in the future: the p-wave magnet. Researchers from ...

Engineers at the University of Delaware have uncovered a way to bridge magnetism and electricity through magnons—tiny waves that carry information without electrical current. These magnetic waves can ...