which are themselves semiconductors) interspersed throughout the silicon crystal lattice in a process called "doping." The choice of dopant determines what properties the finished semiconductor ...

T oday, silicon photonic circuits connect server racks and play key roles in chemical sensors, biosensors, and LIDAR for self-driving cars. But making these devices work requires ...

The US, China and Japan are working on research and development in gallium oxide crystal growth and productionizing gallium oxide chips. The Gallium oxide ...

the high-purity silicon used in a variety of electronic devices, ranging from computer microchips and power transistors to solar cells, liquid-crystal displays, and semiconductor-based detectors.

To improve the efficiency—and power—of these devices, scientists are searching for alternative materials to replace standard silicon-based semiconductors. "Our work investigates how emerging ...

As great as silicon is for semiconductor applications, it has one weakness in that using it for lasers isn’t very practical. Never say never though, as it turns out that you can now grow ...

Optimized for Semiconductor Manufacturing International Corporation (SMIC) 0.13μm Logic Salicide 1.2/3.3V process, S13V25_OSCIO_02 provides a crystal oscillator IO pad designed for low-power ...

Our work investigates how emerging 2D materials can be integrated with existing silicon technology to enhance functionality and improve performance, paving the way for energy-efficient nanoelectronics ...

India and the Netherlands are exploring collaboration in semiconductor research using lab-grown diamonds. The partnership aims to leverage the traditional trade of diamonds and innovative technology, ...

Silicon Creations, a leading provider of high-performance analog and mixed-signal intellectual property (IP), today announced the successful tape-out of a chip on the TSMC N2P process including a ...

He said that the way that lab-grown diamonds can actually be sliced and growing crystals of diamonds is something very ...