A comparative study of broadband PbS quantum dots/graphene photodetectors with monolayer and bilayer graphene

Austin Olson, Dakeya Chambers, Sarah Gotfredson, Andrew Shultz, Bo Liu, Maogang Gong and Judy Z Wu
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Abstract

Colloidal quantum dots (QDs)/graphene nanohybrids provide a unique platform to design photodetectors of high performance. These photodetectors are quantum sensors due to the strong quantum confinement in QDs for spectral tunability, and in graphene for high charge mobility. Quantitatively, the high carrier mobility of graphene plays a critical role to enable high photoconductive gain and understanding its impact on the photodetector performance is imperative. Herein, we report a comparative study of PbS QDs/graphene nanohybrids with monolayer and bilayer graphene for broadband photodetection ranging from ultraviolet, visible, near-infrared to short-wave infrared spectra (wavelength: 400 nm–1750 nm) to determine if a specific advantage exists for one over the other. This study has revealed that both the monolayer and bilayer graphene grown in chemical vapor deposition can provide a highly efficient charge transfer channel for photo-generated carriers for high broadband photoresponse.
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带有单层和双层石墨烯的宽带 PbS 量子点/石墨烯光电探测器比较研究
胶体量子点(QDs)/石墨烯纳米混合体为设计高性能光电探测器提供了一个独特的平台。这些光电探测器是量子传感器,因为量子点中的强量子约束具有光谱可调性,而石墨烯中的强量子约束具有高电荷迁移率。从数量上看,石墨烯的高载流子迁移率对实现高光电导增益起着至关重要的作用,因此了解其对光电探测器性能的影响势在必行。在此,我们报告了单层石墨烯和双层石墨烯 PbS QDs/ 石墨烯纳米杂化物在紫外线、可见光、近红外和短波红外光谱(波长:400 nm-1750 nm)等宽带光电探测方面的比较研究,以确定二者是否存在特定的优势。这项研究表明,在化学气相沉积法中生长的单层和双层石墨烯都能为光产生的载流子提供高效的电荷转移通道,从而实现高宽带光响应。
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