Wafer-Scale Synthesis of 2D Dirac Heterostructures for Self-Driven, Fast, Broadband Photodetectors

光电探测器 异质结 石墨烯 材料科学 光电子学 响应度 光探测 半导体 纳米技术
作者
Wenzhi Yu,Zhuo Dong,Haoran Mu,Guanghui Ren,Xiaoyue He,Xiu Li,Shenghuang Lin,Kai Zhang,Qiaoliang Bao,Sudha Mokkapati
出处
期刊:ACS Nano [American Chemical Society]
卷期号:16 (8): 12922-12929 被引量:31
标识
DOI:10.1021/acsnano.2c05278
摘要

Type-II Dirac semimetal platinum ditelluride (PtTe2) is a promising functional material for photodetectors because of its specially tilted Dirac cones, strong light absorption, and high carrier mobilities. The stack of two-dimensional (2D) Dirac heterostructures consisting of PtTe2 and graphene could overcome the limit of detection range and response time occurring in the heterostructures of graphene and other low-mobility and large-gap transition metal dichalcogenides (TMDs). Here, we report an approach for achieving highly controllable, wafer-scale production of 2D Dirac heterostructures of PtTe2/graphene with tunable thickness, variable size, and CMOS compatibility. More importantly, the optimized recipes achieve the exact stoichiometric ratio of 1:2 for Pt and Te elements without contaminating the underlayer graphene film. Because of the built-in electric field at the junction area, the photodetectors based on the PtTe2/graphene heterostructure are self-driven with a broadband photodetection from 405 to 1850 nm. In particular, the photodetectors have a high responsivity of up to ∼0.52 AW-1 (without bias) and a fast response time of ∼8.4 μs. Our work demonstrated an approach to synthesizing hybrid 2D Dirac heterostructures, which can be applied in the integration of on-chip, CMOS-compatible photodetectors with near-infrared detection, high sensitivity, and low energy consumption.

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