Microelectronics can be found at the core of nearly every modern breakthrough from artificial intelligence to renewable energy, and the research landscape is evolving at unprecedented speed. Knowing ...

Tens of thousands of patents on microelectronics technology every year reflect its importance in the modern world. Patenting in niche areas such as 2D materials is growing quickly. Artificial ...

Silicon carbide (SiC) is a promising material platform for photonic integrated circuits (PICs) an miniaturized solid -state quantum systems. In the ALP -4 -SiC project—Atomic Layer Processing for SiC ...

POSTECH develops a low-temperature heterojunction-based transistor that implements complex circuits with a single device.

The Microelectronics Science Research Centers will study novel, efficient microelectronics technologies and enable transformative applications in computing and sensing, such as this front-end module ...

A team of researchers is exploring novel materials that have potential to make microelectronics more energy efficient. Their recent work explores recently discovered wurtzite ferroelectrics, which are ...

Nickel monosilicide (NiSi) is widely used to connect transistors in semiconductor circuits. Earlier theoretical calculations had incorrectly predicted that NiSi was not magnetic. As a result, ...

Combining a solid foundation in current production technologies with the chance to explore emerging materials and structures, the course prepares students for diverse careers in microelectronics ...

A Reputation for Excellence: RIT is a world leader in the education of semiconductor process and device engineers. Learn more about semiconductor chips at RIT. Dynamic Courses: Explore the foundations ...