晶体管
材料科学
欧姆接触
光电子学
数码产品
场效应晶体管
纳米技术
小型化
功勋
接触电阻
半导体
电气工程
图层(电子)
电压
工程类
作者
Hong Li,Qiuhui Li,Ying Li,Zongmeng Yang,Ruge Quhe,Xiaotian Sun,Yangyang Wang,Lin Xu,Lian‐Mao Peng,He Tian,Chenguang Qiu,Jing Lü
标识
DOI:10.1002/adfm.202402474
摘要
Abstract Since Si‐based Moore's law is physically limited, 2D semiconductors are proposed as successors to continue shrinking the transistor size for more Moore electronics. However, limited by experimental technology bottlenecks, the theoretical predicted superiorities of the 2D transistors over the state‐of‐the‐art Si transistors have been lacking concrete evidence for a decade. In this review, recent exciting experimental breakthroughs for 2D transistors are presented, including gate length miniaturization to a sub‐1 nm limit, electrode contact optimization to the resistance quantum limit, high‐quality dielectric fabrication with an equivalent oxide thickness to sub‐0.5 nm, novel architecture form (2D fin field‐effect transistor), and back‐end‐of‐line integration of directly grown 2D materials on Si complementary metal‐oxide‐semiconductor circuits. Remarkably, an ultrashort channel, Ohmic contact, ballistic transport, and ultrathin dielectric layer are simultaneously satisfied in the 2D InSe transistor, and device performances approaching the theoretical limit are observed. The measured key figures of merit of the ideal 2D InSe transistor are comparable to or even surpass those of the Si transistors. Finally, the challenges and outlook on more Moore electronics based on 2D transistors are highlighted.
科研通智能强力驱动
Strongly Powered by AbleSci AI