响应度
光探测
材料科学
光电子学
光电探测器
纳米线
暗电流
极化(电化学)
场效应晶体管
铁电性
红外线的
电场
散射
砷化镓
电子迁移率
砷化铟镓
热电性
半导体
比探测率
砷化铟
载流子寿命
量子效率
量子阱
载流子散射
载流子
量子阱红外探测器
宽禁带半导体
光散射
铁电聚合物
晶体管
光电导性
蓝移
撞击电离
作者
Yuxuan He,Zhidan Diao,Jiayu Meng,Qingqing Cao,Yanhui Zhang,Chang Lu,Ziteng Zhang,Can Zhou,Fan Li,Shuaiqin Wu,Xutao Zhang,Xudong Wang,P P Chen,X R Yuan,Wei Lu
摘要
InGaAs nanowires (NWs) show exceptional potential in near-infrared photodetection due to their excellent optoelectronic properties. However, the high intrinsic carrier concentration of the InGaAs NW and the ionization scattering caused by surface defect states result in a high dark current, which degrades the photodetection performance. Here, we prepared an InGaAs NW field-effect transistor modulated by ferroelectric polymer P(VDF-TrFE), where the non-volatile ultra-high electrostatic field from polarization of the P(VDF-TrFE) film modulates the carrier distribution and energy band structure inside the NW. When the P(VDF-TrFE) film is in a negative polarization state, the electrostatic field depletes the carriers in the NW channel, remarkably suppressing the dark current by over two orders of magnitude. Consequently, our single InGaAs NW photodetector achieves both remarkable responsivity (R) of 1.1 × 103 A W−1 and specific detectivity (D*) of 7.5 × 1012 Jones at the optical communication wavelength, significantly exceeding the commercial InGaAs and the nanowire-based photodetector. Moreover, the suppressed dark current enhances the polarization-sensitive detection capability, increasing the polarization ratio from 1.3 to 3.6. This enables the application of our device to polarization-sensitive infrared imaging. Our work demonstrates the value of ferroelectric polymer modulation for low-dimensional, high-performance infrared photodetectors.
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