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Room temperature long-wavelength infrared graphene photodetectors using photogating via the pyroelectric effect

光电探测器 材料科学 光电子学 响应度 石墨烯 红外线的 基质(水族馆) 吸收(声学) 热电性 光学 纳米技术 铁电性 物理 海洋学 地质学 复合材料 电介质
作者
Masaaki Shimatani,Shoichiro Fukushima,Satoshi Okuda,Shinpei Ogawa,Yasushi Kanai,Takao Ono,Kōichi Inoue,Kazuhiko Matsumoto
标识
DOI:10.1117/12.2558343
摘要

Graphene has unique optoelectronic properties and potential applications in improved infrared (IR) photodetectors. Due to its Dirac cone structure, graphene exhibits broadband light absorption and rapid responsivity. In addition, unlike conventional quantum photomaterials, graphene can be synthesized inexpensively via a non-toxic process. Although graphene has advantages in IR photodetector applications, graphene photodetectors have shown low responsivity due to their minimal IR absorption (just 2.3%) and also require cooling. Therefore, there is considerable interest in enhancing the responsivity of graphene photodetectors operating at room temperature so that their advantages can be employed in IR applications. The present work demonstrates room temperature, high-responsivity, long-wavelength infrared (LWIR) graphene photodetectors. These devices operate on the photogating effect, using a lithium niobate (LiNbO3) substrate with enhancement of the photogating via a pyroelectric effect in the substrate in conjunction with a SiN layer. This effect significantly modulates the back-gate voltage to increase the photoresponse by a factor of approximately 600 compared to that for a conventional graphene photodetector. This work also found a change in the type of charge carrier with variations in temperature, which was attributed to a large shift in the Dirac point owing to the strong photogating effect. The results of this study are expected to contribute to the future realization of high-responsivity, low-cost LWIR photodetectors for applications such as thermal imaging, medical care and gas analysis.
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