Integration of PbS Quantum Dots with 3D-Graphene for Self-powered Broadband Photodetectors in Image Sensors

Wu, Huijuan; Liu, Zhongyu; Wang, Bingkun; Zheng, Li; Lian, Shanshui; Zhang, Jinqiu; Zhang, Shan; Zhang, Guanglin; Xue, Zhongying; Yang, Siwei; Cheng, Xinhong; Ding, Guqiao; Liu, Zhiduo; Ye, Caichao; Wang, Gang

doi:10.1021/acsphotonics.3c01803

ACS Photonics

2024

DOI: 10.1021/acsphotonics.3c01803

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Integration of PbS Quantum Dots with 3D-Graphene for Self-powered Broadband Photodetectors in Image Sensors

Huijuan Wu,

Zhongyu Liu,

Bingkun Wang

et al.

Abstract: High-performance broadband photodetectors (PDs) are crucial in various military and civilian applications. However, conventional near-infrared (NIR) PDs still face several inevitable self-limitations such as a finite light absorption range for silicon (Si) and large area array issues for InGaAs. In response to these challenges, this work proposes a high-performance and uncooled NIR PD with wide-band response and long-term stability, which is integrated by the PbS quantum dots (QDs)/three-dimensional graphene (… Show more

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Cited by 5 publications

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Pb‐Free Infrared Harvesting Colloidal Quantum Dot Solar Cells Using n‐p Homojunction Architecture

Park,

Kim,

Jeong

et al. 2024

Advanced Energy Materials

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Harvesting infrared (IR) sunlight using colloidal quantum dots (CQDs) holds significant promise for optoelectronic devices including photovoltaics (PVs) and self‐powered sensors. Traditionally, Pb chalcogenides have been utilized in energy devices, but needs for RoHS compliance derive the development of Pb‐free alternatives. A key challenge with Pb‐free materials is the low photovoltage in devices, primarily due to recombination in surface defects and interfaces within the architectures. Here, the Pb‐free CQD PVs capable of harvesting the IR light beyond the Si PVs are first presented. Designing an InAs CQD‐based homojunction architecture, with n‐type InAs absorbers passivated with multifunctional ligands and p‐type conductive InAs inks, efficient charge extraction is achieved while suppressing interface recombination. Additionally, the IR light path is modulated to match the absorber's absorption to optimize the performance. This led to InAs PVs with absorber bandgaps ranging from 1.35 to 1.03 eV, significantly improving the open‐circuit voltage from 0.05 to 0.26 V and fill factor from 29% to 50%, comparable to Pb‐based PVs. The InAs IR‐PVs exhibit a power conversion efficiency of 2.00% under one‐sun and 0.27% with a Si filter, outperforming control ones (0.28% and 0.03%). This work provides an effective strategy for designing Pb‐free, energy‐independent IR optoelectronics.

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Pb‐Free Infrared Harvesting Colloidal Quantum Dot Solar Cells Using n‐p Homojunction Architecture

Park,

Kim,

Jeong

et al. 2024

Advanced Energy Materials

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Construction and Multifunctional Photonic Applications of Light Absorption‐Enhanced Silicon‐Based Schottky Coupled Structures

Wu,

Lian,

Zhang

et al. 2024

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To expand the detection capabilities of silicon (Si)‐based photodetector and address key scientific challenges such as low light absorption efficiency and short carrier lifetime in Si‐based graphene photodetector. This work introduces a novel Si‐based Schottky coupled structure by in situ growth of 3D‐graphene and molybdenum disulfide quantum dots (MoS2 QDs) on Si substrates using chemical vapor deposition (CVD) and plasma‐enhanced chemical vapor deposition (PECVD) techniques. The findings validate the “dual‐enhanced absorption” effect, enhancing the understanding of the mechanisms that improve optoelectronic performance. The synergistic effect of 3D‐graphene's natural nano‐resonant cavity and MoS2 QDs enhances light absorption efficiency and extends carrier lifetime. Introducing MoS2 QDs broadens and intensifies the built‐in electric field, promoting the separation of photogenerated electrons and holes. The photodetector exhibits a wideband light response in the wavelength range of 380–2200 nm. It stably outputs photocurrent under high‐frequency (1 kHz) modulated laser (2200 nm), with a responsivity (R) of 40 mA W−1 and detectivity (D*) of 1.15 × 109 Jones. Photodetectors show the ability to process and encrypt complex binary signals and achieve versatility in “AND” gate and “OR” gate logic operations, as well as image sensing (240 × 200 pixels).

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High‐Performance Broad‐Spectrum UV Photodetectors with Uniform Response: Engineering β‐Ga₂O₃:Si/GaN:Si Heterojunctions via Thermal Oxidation for Optoelectronic Logic Gate and Multispectral Imaging

Jiang,

Luo,

Ding

et al. 2024

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Developing high‐performance, broad‐spectrum ultraviolet photodetectors (PDs) with uniform response is crucial for optoelectronic applications like spectral analysis, optoelectronic logic gates, and multispectral imaging. This study constructs n‐n type β‐Ga2O3:Si/GaN:Si heterojunction PDs using thermal oxidation, combining the advantages of β‐Ga2O3:Si and GaN:Si for excellent broad‐spectrum response (UV‐A to UV‐C). A proposed channel model for GaN:Si oxidation includes hole formation, vortex structure development, channel formation, and grain growth, providing a basis for understanding β‐Ga2O3:Si/GaN:Si heterojunction formation. Uniform Si doping in the β‐Ga2O3 layer, achieved through thermal oxidation, reduces resistivity, enhances the collection of photogenerated carriers from the underlying GaN layer, and hence enhances broad‐spectrum response performance. The devices exhibit outstanding uniformity and sensitivity across the UV‐A to UV‐C range, with a peak responsivity of 2.44 × 104 A W−1 and a photocurrent‐to‐dark current ratio of 1.3 × 105. Applications include optoelectronic logic gates executing “OR gate” and “AND gate” logic operations with 254 and 365 nm UV light, and a single‐pixel multispectral imaging system producing high‐contrast, clear “CNU” images with 254, 295, and 365 nm UV light. This research advances the understanding of oxide heterojunction formation and offers a method for developing high‐performance, uniformly responsive broad‐spectrum UV photodetectors for optoelectronic applications.

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Integration of PbS Quantum Dots with 3D-Graphene for Self-powered Broadband Photodetectors in Image Sensors

Cited by 5 publications

References 41 publications

Pb‐Free Infrared Harvesting Colloidal Quantum Dot Solar Cells Using n‐p Homojunction Architecture

Pb‐Free Infrared Harvesting Colloidal Quantum Dot Solar Cells Using n‐p Homojunction Architecture

Construction and Multifunctional Photonic Applications of Light Absorption‐Enhanced Silicon‐Based Schottky Coupled Structures

High‐Performance Broad‐Spectrum UV Photodetectors with Uniform Response: Engineering β‐Ga₂O₃:Si/GaN:Si Heterojunctions via Thermal Oxidation for Optoelectronic Logic Gate and Multispectral Imaging

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Integration of PbS Quantum Dots with 3D-Graphene for Self-powered Broadband Photodetectors in Image Sensors

Cited by 5 publications

References 41 publications

Pb‐Free Infrared Harvesting Colloidal Quantum Dot Solar Cells Using n‐p Homojunction Architecture

Pb‐Free Infrared Harvesting Colloidal Quantum Dot Solar Cells Using n‐p Homojunction Architecture

Construction and Multifunctional Photonic Applications of Light Absorption‐Enhanced Silicon‐Based Schottky Coupled Structures

High‐Performance Broad‐Spectrum UV Photodetectors with Uniform Response: Engineering β‐Ga2O3:Si/GaN:Si Heterojunctions via Thermal Oxidation for Optoelectronic Logic Gate and Multispectral Imaging

Contact Info

Product

Resources

About

High‐Performance Broad‐Spectrum UV Photodetectors with Uniform Response: Engineering β‐Ga₂O₃:Si/GaN:Si Heterojunctions via Thermal Oxidation for Optoelectronic Logic Gate and Multispectral Imaging