材料科学
截止频率
无线电频率
光电子学
晶体管
带宽(计算)
线性
极高频率
V波段
射频功率放大器
电容
电气工程
电压
CMOS芯片
电信
物理
光学
放大器
电极
工程类
量子力学
计算机科学
作者
Jiale Qian,Xiaohan Cheng,Jianshuo Zhou,Juexian Cao,Li Ding
出处
期刊:ACS Nano
[American Chemical Society]
日期:2023-07-19
卷期号:17 (15): 14742-14749
被引量:3
标识
DOI:10.1021/acsnano.3c02739
摘要
Aligned carbon nanotubes (ACNTs) have been considered as a promising candidate semiconductor with great potential in radiofrequency (RF) electronics due to their high carrier mobility/saturation velocity and small intrinsic capacitance. However, almost all of previously reported works focused on only the cutoff frequency, which is far from enough for practical RF application. In this work, given the speed advantage of ACNTs, we further explore amplitude amplification and frequency conversion capability of ACNTs based RF devices simultaneously, which are two basic functions in RF electronics. Considering there is no de-embedding process for amplification/conversion and reduction power loss, multifinger configuration RF transistors (still having current density around 1 mA/μm) were fabricated with cutoff frequency and maximum oscillation frequency exceeding 150 and 130 GHz, respectively. Based on dedicated ACNTs based RF FETs, we demonstrate almost 7 dB power gain (S21) with over 40 GHz 3-dB bandwidth for amplification and from -12.7 to -17 dB of conversion gain with over 25 dBm IIP3 (input third-order intercept point) of linearity for conversion simultaneously operating at 30 GHz in millimeter wave (mmWave) band both without any tuning instruments and matching technology assistance. The performance achieved here is the best among all the nanomaterials at the mmWave band.
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