The surging demand for high‑performance, low‑power chips...

The surging demand for high‑performance, low‑power chips driven by AI and large-language models has intensified the search for next‑generation semiconductor technologies. Moore’s Law predicted a doubling of semiconductor capacity every two years but as chip dimensions continue to shrink, physical limitations make further performance scaling increasingly difficult. Two-dimensional (2D) semiconductors have emerged as a leading candidate for post‑Moore chip materials, as they could allow continued transistor scaling. In a 2D semiconductor, its ability to conduct electricity can be altered by adding tiny amounts of other elements, a process called doping, which can result in n-type (negative) and p-type (positive) materials. While many n‑type 2D semiconductors, such as molybdenum disulphide and molybdenum diselenide exist, high‑performance and stable p‑type ones are rare. “Transistors in a chip require both n‑type and p‑type materials to work in pairs. The lack of high‑performance p‑type materials has become a critical bottleneck for the development of sub‑5‑nm node 2D semiconductors, and it is also a fiercely contested scientific and technological frontier,” said Zhu Mengjian from the National University of Defence Technology in a report by Science and Technology Daily on Thursday. #🇨🇳 ChinA.I. 🤖🧠🦾🤖 scmp.com/news/china/scien..