红外线的
石墨烯
探测器
热电性
辐射
光电子学
材料科学
光学
纳米技术
物理
铁电性
电介质
作者
Yang Peng,Q. S. Yang,Jintao Fu,Jun Yang,Yuequan Wu,Yongna Zhang,G. Li,Zhancheng Li,Haofei Shi,Xingzhan Wei
标识
DOI:10.1002/lpor.202500218
摘要
Abstract Uncooled long‐wave infrared (LWIR) detectors substantially facilitate the advancement of miniaturized, highly integrated, and lightweight human radiation perception technology. However, constrained by materials and device structures, the progress of conventional LWIR detectors has stagnated in efficiently detecting weak human radiation at room temperature. Herein, a pyroelectric photogating‐based uncooled LWIR detector with a graphene‐Al 2 O 3 ‐LiNbO 3 hybrid structure is proposed for highly sensitive human radiation detection. The device leverages the polarized charge of LiNbO 3 to modulate the conductance carriers in graphene, thereby achieving an amplified photoresponse in the LWIR range of 8 to 11 µm. Notably, at room temperature, the device exhibits a superior responsivity of 48 A W −1 under blackbody radiation, surpassing the performance of previous 2D materials‐based LWIR detectors. Remarkably, it can identify the radiation signals of a human finger, a feat previously considered challenging for devices relying on graphene or other 2D materials. These results reveal the potential of pyroelectric photogating and provide valuable insights for developing high‐sensitivity, uncooled photodetectors.
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