发布时间:2024-03-01
文章标题:祝贺郭航同学在Journal of Materials Chemistry C上发表石墨烯条带晶体管器件的研究工作!
内容:Recently, an extremely-air-stable one-dimensional 7-9-7-AGNR was successfully fabricated. To further reveal its potential application in sub-5-nm field-effect transistors (FETs), there is an urgent need to develop integrated circuits. Here, we report first-principles quantum-transport simulations on the performance limits of n- and p-type sub-5-nm one-dimensional 7-9-7-AGNR FET. We find that the on-state current (Ion) in 7-9-7-AGNR FET can be effectively manipulated by the length of the gate and underlap. In particular, the optimized Ion in the n-type (p-type) device can reach up to 2423 (4277) and 1988 (920) mA mm�1 for high-performance and low-power applications, respectively. The large Ion values are in the top class among the low-dimensional FETs, which can well satisfy the ITRS requirements. We also find that the 7-9-7-AGNR FET can have ultralow subthreshold swing below 60 mV dev�1, ultrashort delay time (o0.01 ps), and very small power-delay product (o0.01 fJ mm�1). Our results show that the 7-9-7-AGNR-based FETs have great potential applications in high-speed and low-power consumption chips.
文章链接 https://pubs.rsc.org/en/content/articlehtml/2024/tc/d3tc04035f
