The rise of AI has created an almost insatiable appetite for computing power. Training and running AI systems requires vast ...
IBM's NanoStack architecture has led to transistors that deliver 50% better performance and 70% less energy versus today's best technologies.
Atomically thin 2D transistors stayed efficient at chip-scale widths, easing a key hurdle for more powerful, lower-energy ...
A bioelectronic engineer, Klas Tybrandt of Linkoping University in Sweden, has built the first "ion transistor" computer chip, which uses chemical ions and biological molecules as charge carriers ...
In a bold challenge to silicon s long-held dominance in electronics, Penn State researchers have built the world s first working CMOS computer entirely from atom-thin 2D materials. Using molybdenum ...
Researchers have created a new theoretical framework that shows how memory-preserving "memtransistors" could overcome the intrinsic limits in efficiency faced by conventional semiconductor transistors ...
Bioengineers at Stanford University have created the first biological transistor made from genetic materials: DNA and RNA. Dubbed the "transcriptor," this biological transistor is the final component ...
Recent research at the Technion lays the ground for future high-performance alternatives to silicon in microelectronics. By stretching an oxide material at an atomic level, the researchers are able to ...
Transistors that can change properties are important elements in the development of tomorrow's semiconductors. With standard transistors approaching the limit for how small they can be, having more ...
In a nutshell: Back in 2021, a team from the Massachusetts Institute of Technology made waves by creating an entirely new type of ferroelectric material. Now, those same researchers have one-upped ...