High Performance Self‐Powered and Vis–Infrared Broadband Photodetectors Based on MoTe<sub>2</sub>/InSe Van der Waals Heterostructure

He, Sixian; Feng, Pu; Du, Yuan; Ma, Yupeng; Dang, Congcong; Shan, Aidang; Zhao, Liancheng; Wei, Tian‐Ran; Li, Ming; Gao, Liming

doi:10.1002/adom.202302399

Cited by 5 publications

(1 citation statement)

References 73 publications

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“…However, the zero-biased photodetector exhibited a slightly diminished responsivity of 13.8 mA W −1 . Recently, He et al 192 constructed a self-powered photodetector based on an MoTe 2 /InSe van der Waals heterostructure (vdWH) device as shown in Fig. 10(d), which exhibited an excellent responsivity ( R ) of 433.88 mA W −1 and a specific detectivity ( D *) of 1.65 × 10 12 Jones under 405 nm irradiation.…”

Section: Inse Advanced Device Applicationmentioning

confidence: 99%

Research progress on two-dimensional indium selenide crystals and optoelectronic devices

Zheng,

Chen,

Liu

et al. 2024

J. Mater. Chem. A

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Section: Inse Advanced Device Applicationmentioning

confidence: 99%

Research progress on two-dimensional indium selenide crystals and optoelectronic devices

Zheng,

Chen,

Liu

et al. 2024

J. Mater. Chem. A

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Revealing Enhanced Optoelectronic Performance of Sb₂Se₃‐Based Self‐Sustaining Heterostructures with Bi₂Se₃ and ZnSe: A Dual Polarity Photo Response

Kumar,

Sharma,

Verma

et al. 2024

Adv Funct Materials

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Through precise band engineering, Van der Waals heterostructures integration holds great promise for advancing high‐performance optoelectronic devices, especially photodetectors. This study presents self‐sustaining, dual‐polarity, high photo‐responsive heterostrutures (HS) photodetectors based on Sb2Se3, specifically Bi2Se3/Sb2Se3 and ZnSe/Sb2Se3. The Bi2Se3 (ZnSe) layer functions as a channel in a reconfigurable HS phototransistor configuration. These HS devices demonstrate a negative photoconductive response with bias‐modulated polarity switching of the photocurrent. The Bi2Se3/Sb2Se3 device exhibits a responsivity switch from −4 mA W−1 to 0.14 A W−1, while the ZnSe/Sb2Se3 device shows a substantially enhanced responsivity switch from ‐400 mA W−1 to 12 A W−1. This negative photo response results from a photoinduced carrier trapping mechanism at the interface of the channel layer and photosensitizer material. The bias modulation enables the switching from negative to positive responsivity. A comprehensive investigation of photoconductivity modulation provides a deeper understanding of the impact of the photogating effect and trap states under applied bias conditions. Ultrafast transient spectroscopy supports these findings, offering insights into the dynamics of charge carrier relaxation mechanisms and the trapping of photoexcited carriers in defect states, crucial for explaining the dual polarity photo response. These devices present significant advantages for switchable light imaging, optical communication, memory devices, convolution processing, and logic circuits.

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Self‐Powered Broadband UV–NIR Photodetectors Based on InSe/PtS₂ Van der Waals Heterostructure

Xu,

Qin,

et al. 2024

Advanced Optical Materials

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Van der Waals heterostructures (vdWHs) consisting of 2D materials offer a practical and effective approach for engineering multifunctional, high‐performance photodetectors. However, 2D vdWHs photodetectors based on photoconductive effects require an external power input and are often accompanied by a large dark current, which hinders the development of miniaturization and portability of devices and greatly limits the application of devices in complex environments. Herein, a self‐powered photodetector constructed from an InSe/PtS2 vdWH with an extremely low dark current (≈10−14 A) at zero bias and a large rectification ratio of 5.1 × 103 is reported. Leveraging the robust built‐in electric field of the InSe/PtS2 vdWH, the device demonstrates pronounced photovoltaic effects, characterized by an open‐circuit voltage of 0.395 V and a substantial short‐circuit current of 37.1 nA. Remarkably, a high responsivity and detectivity of 211 mA W−1 and 8.58 × 1012 Jones, an excellent light on/off ratio of 0.8 × 107 , and a fast response time of 465/470 µs are achieved, at zero bias. The device showcases a broadband self‐powered photoresponse spanning from 265 to 1064 nm. This study demonstrates the high potential of the InSe/PtS2 vdWH for broadband self‐powered photodetector applications.

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High Performance Self‐Powered and Vis–Infrared Broadband Photodetectors Based on MoTe₂/InSe Van der Waals Heterostructure

Cited by 5 publications

References 73 publications

Research progress on two-dimensional indium selenide crystals and optoelectronic devices

Research progress on two-dimensional indium selenide crystals and optoelectronic devices

Revealing Enhanced Optoelectronic Performance of Sb₂Se₃‐Based Self‐Sustaining Heterostructures with Bi₂Se₃ and ZnSe: A Dual Polarity Photo Response

Self‐Powered Broadband UV–NIR Photodetectors Based on InSe/PtS₂ Van der Waals Heterostructure

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High Performance Self‐Powered and Vis–Infrared Broadband Photodetectors Based on MoTe2/InSe Van der Waals Heterostructure

Cited by 5 publications

References 73 publications

Research progress on two-dimensional indium selenide crystals and optoelectronic devices

Research progress on two-dimensional indium selenide crystals and optoelectronic devices

Revealing Enhanced Optoelectronic Performance of Sb2Se3‐Based Self‐Sustaining Heterostructures with Bi2Se3 and ZnSe: A Dual Polarity Photo Response

Self‐Powered Broadband UV–NIR Photodetectors Based on InSe/PtS2 Van der Waals Heterostructure

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Product

Resources

About

High Performance Self‐Powered and Vis–Infrared Broadband Photodetectors Based on MoTe₂/InSe Van der Waals Heterostructure

Revealing Enhanced Optoelectronic Performance of Sb₂Se₃‐Based Self‐Sustaining Heterostructures with Bi₂Se₃ and ZnSe: A Dual Polarity Photo Response

Self‐Powered Broadband UV–NIR Photodetectors Based on InSe/PtS₂ Van der Waals Heterostructure