响应度
材料科学
光电探测器
光电子学
并五苯
异质结
超短脉冲
石墨烯
光电二极管
电子迁移率
激子
光学
纳米技术
物理
图层(电子)
薄膜晶体管
激光器
量子力学
作者
Yuquan Gan,Shuchao Qin,Qianqian Du,Yuting Zhang,Jing Zhao,Mengru Li,Anran Wang,Yunlong Liu,Shuhong Li,Ruixin Dong,Linglong Zhang,Xiaohong Chen,Cailong Liu,Wenjun Wang,Fengqiu Wang
标识
DOI:10.1002/advs.202204332
摘要
Abstract Organic materials exhibit efficient light absorption and low‐temperature, large‐scale processability, and have stimulated enormous research efforts for next‐generation optoelectronics. While, high‐performance organic devices with fast speed and high responsivity still face intractable challenges, due to their intrinsic limitations including finite carrier mobility and high exciton binding energy. Here an ultrafast and highly sensitive broadband phototransistor is demonstrated by integrating high‐quality pentacene single crystal with monolayer graphene. Encouragingly, the −3 dB bandwidth can reach up to 26 kHz, which is a record‐speed for such sensitized organic phototransistors. Enormous absorption, long exciton diffusion length of pentacene crystal, and efficient interfacial charge transfer enable a high responsivity of >10 5 A W −1 and specific detectivity of >10 11 Jones. Moreover, self‐powered weak‐light detection is realized using a simple asymmetric configuration, and the obvious zero‐bias photoresponses can be displayed even under 750 nW cm −2 light intensity. Excellent response speed and photoresponsivity enable high‐speed image sensor capability in UV‐Vis ranges. The results offer a practical strategy for constructing high‐performance self‐powered organic hybrid photodetectors, with strong applicability in wireless, weak‐light detection, and video‐frame‐rate imaging applications.
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