Demonstration of a 3D-Assembled Dual-Mode Photodetector Based on Tubular Graphene/III–V Semiconductors Heterostructure and Coplanar Three Electrodes

Xu, Jiyu; Wang, Qi; Shen, Mingyang; Yang, Yubo; Liu, Hao; Yuan, Xueguang; Zhang, Yangan; Liu, Kai; Cai, Shiwei; Huang, Yongqing; Ren, Xiaomin

doi:10.1021/acsnano.4c00839

ACS Nano

2024

DOI: 10.1021/acsnano.4c00839

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Demonstration of a 3D-Assembled Dual-Mode Photodetector Based on Tubular Graphene/III–V Semiconductors Heterostructure and Coplanar Three Electrodes

Jiyu Xu,

Qi Wang,

Mingyang Shen

et al.

Abstract: 3D assembly technology is a cutting-edge methodology for constructing high-performance and multifunctional photodetectors since some attractive photodetection features such as light trapping effect, omnidirectional ability, and high spatial resolution can be introduced. However, there has not been any report of 3D-assembled multimode photodetectors owing to the lack of design and fabrication guideline of electrodes serving for 3D heterostructures. In this study, a 3D-assembled dual-mode photodetector (3DdmPD) … Show more

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Cited by 6 publications

References 56 publications

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Graphene Readout Silicon‐Based Microtube Photodetectors for Encrypted Visible Light Communication

Zhang,

Cai,

et al. 2024

Advanced Materials

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The implementation of an advanced light receiver is imperative for the widespread application of visible light communication. However, the integration of multifunctional and high‐performance visible light receivers is still limited by device structure and system complexity. Herein, a graphene‐readout silicon‐based microtube photodetector is proposed as the receiver for omnidirectional Mbps‐level visible light communication. The integration of graphene‐semiconductor material systems simultaneously ensures the effective absorption of incident light and rapid readout of photogenerated carriers, and the device exhibits an ultrafast response speed of 75 ns and high responsivity of 6803 A W−1. In addition, the microtube photodetector realizes the omnidirectional light‐trapping and enhanced polarization photodetection. As the receiving end of the visible light communication system, the microtube photodetector achieves a data rate of up to 778 Mbps, a field of view of 140°, and the encrypted visible light communication of polarized light, providing a new possibility for the future development of the internet of things and information security.

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Graphene Readout Silicon‐Based Microtube Photodetectors for Encrypted Visible Light Communication

Zhang,

Cai,

et al. 2024

Advanced Materials

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Interconnect‐Integrated GaInP/AlGaAs Schottky Photodetector Array with Heterojunction‐Assisted Enhanced Photovoltaic Effect for Automotive Speed Measurement Systems

Yue,

Zhao,

Wang

et al. 2024

Advanced Optical Materials

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Reducing power consumption has always been a pressing issue for integrated circuits. Currently, there is a strong interest in the development of self‐powered photodetectors with low power consumption, high quantum efficiency, and high integration. In this work, a novel GaInP/AlGaAs photodetector is developed, where the photovoltaic effect of the Schottky junction is enhanced by the assistance of underneath GaInP/AlGaAs heterojunction, achieving near unity quantum efficiency, high integration, and ultrafast response speed. A single device exhibits a responsivity (R) of 467 mA W−1 in photovoltaic mode, a specific detectivity (D*) of 1.43 × 1011 Jones, a power conversion efficiency (PCE) of 14.5%, and an external quantum efficiency (EQE) of 96.56%. Further, an interconnect integration technique is used to integrate 81 individual detector units onto a 5 × 5 mm2 chip, resulting in a detector array that significantly improves the optical response. The device array has a high frequency feature with a fast response of 19 µs and a −3 dB bandwidth of 21.34 kHz. The interconnect chip is further integrated with a STM32 chip to realize an automotive speed measurement system. This work provides a novel technological solution for a high‐frequency, highly integrated photodetector array using heterojunction‐assisted enhanced GaInP Schottky junctions.

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Wafer‐Scale Fabrication of Broadband Sb₂Se₃ Photodetectors and their Multifunctional Optoelectronic Applications

Ma,

Deng,

Liang

et al. 2024

Laser & Photonics Reviews

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Low‐dimensional van der Waals materials (vdWMs) have attracted worldwide interest on account of numerous advantages including self‐passivated surface, high carrier mobility, excellent flexibility, etc. Among multiple vdWMs, Sb2Se3 stands out due to its high light absorption coefficient, environmentally friendly components, excellent stability, and abundant reserve. However, limited effective wavelength range and unscalable preparation have been obstinate issues standing in the way of further development. Herein, pulsed‐laser deposition (PLD) has been developed for synthesizing Sb2Se3 nanofilms, and wafer‐scale deposition has been realized. The PLD‐derived Sb2Se3 photodetector demonstrates broadband photoresponse across UV to NIR. First‐principles calculations have determined that this is because the formation of Se vacancies can result in a reduction of the bandgap. Upon 635 nm illumination, an optimal responsivity of 2.68 A W−1 has been achieved, corresponding to an external quantum efficiency of 524% and a specific detectivity of 1.34 × 1012 Jones. Furthermore, the device manifests a short response/recovery time of ≈2/1 ms. Proof‐of‐concept broadband imaging as well as fitness monitoring (respiratory rate & heart rate) have been realized. Profited from the scalable preparation, an array of Sb2Se3 photodetectors have been produced, exhibiting qualified device‐to‐device variation. On the whole, this study has depicted an attractive landscape for next‐generation integrated optoelectronics.

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Demonstration of a 3D-Assembled Dual-Mode Photodetector Based on Tubular Graphene/III–V Semiconductors Heterostructure and Coplanar Three Electrodes

Cited by 6 publications

References 56 publications

Graphene Readout Silicon‐Based Microtube Photodetectors for Encrypted Visible Light Communication

Graphene Readout Silicon‐Based Microtube Photodetectors for Encrypted Visible Light Communication

Interconnect‐Integrated GaInP/AlGaAs Schottky Photodetector Array with Heterojunction‐Assisted Enhanced Photovoltaic Effect for Automotive Speed Measurement Systems

Wafer‐Scale Fabrication of Broadband Sb₂Se₃ Photodetectors and their Multifunctional Optoelectronic Applications

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Demonstration of a 3D-Assembled Dual-Mode Photodetector Based on Tubular Graphene/III–V Semiconductors Heterostructure and Coplanar Three Electrodes

Cited by 6 publications

References 56 publications

Graphene Readout Silicon‐Based Microtube Photodetectors for Encrypted Visible Light Communication

Graphene Readout Silicon‐Based Microtube Photodetectors for Encrypted Visible Light Communication

Interconnect‐Integrated GaInP/AlGaAs Schottky Photodetector Array with Heterojunction‐Assisted Enhanced Photovoltaic Effect for Automotive Speed Measurement Systems

Wafer‐Scale Fabrication of Broadband Sb2Se3 Photodetectors and their Multifunctional Optoelectronic Applications

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Product

Resources

About

Wafer‐Scale Fabrication of Broadband Sb₂Se₃ Photodetectors and their Multifunctional Optoelectronic Applications