Synergism in Binary Nanocrystals Enables Top-Illuminated HgTe Colloidal Quantum Dot Short-Wave Infrared Imager

Wang, Binbin; Yuan, Mohan; Liu, Jing; Zhang, Xingchen; Liu, Jing; Yang, Ji; Gao, Liang; Zhang, Jianbing; Tang, Jiang; Lan, Xinzheng

doi:10.1021/acs.nanolett.4c02235

Nano Lett.

2024

DOI: 10.1021/acs.nanolett.4c02235

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Synergism in Binary Nanocrystals Enables Top-Illuminated HgTe Colloidal Quantum Dot Short-Wave Infrared Imager

Binbin Wang,

Mohan Yuan,

Jing Liu

et al.

Abstract: Thanks to their tunable infrared absorption, solution processability, and low fabrication costs, HgTe colloidal quantum dots (CQDs) are promising for optoelectronic devices. Despite advancements in device design, their potential for imaging applications remains underexplored. For integration with Si-based readout integrated circuits (ROICs), top illumination is necessary for simultaneous light absorption and signal acquisition. However, most high-performing traditional HgTe CQD photodiodes are pon-n stack and … Show more

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Interfacially-Engineered HgTe Colloidal Quantum Dot Photodiodes Using Self-Assembled Monolayer

Yu,

Wang,

Huang

et al. 2024

ACS Photonics

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Colloidal quantum dot (CQD) photodetectors hold promise for a new generation of infrared imaging with low cost and large array integration. In spite of great progress, it remains crucial to further improve the detector performance. In this study, we report HgTe CQD photodetectors with improved performance by leveraging an interfacial engineering approach. This is achieved by introducing self-assembled monolayers (SAMs) between the bottom electrode and the hole-transport CQD layer. Our analysis elucidates the multiple roles of SAMs in band alignment, interface passivation, and improved film quality in CQD devices. The HgTe CQD photodiodes achieve a suppressed dark current density of 4.59 × 10 −7 A/cm 2 at −0.4 V, coupled with an external quantum efficiency (EQE) of 54.59% and a record-specific detectivity of 2.1 × 10 12 Jones at a wavelength ∼1700 nm. By integration with Si-based readout integrated circuits, a HgTe CQD short-wave infrared imager with 640 × 512 pixels was fabricated, and infrared imaging was finally demonstrated. This study highlights the importance of interface engineering in achieving high-performance CQD optoelectronic devices.

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Interfacially-Engineered HgTe Colloidal Quantum Dot Photodiodes Using Self-Assembled Monolayer

Yu,

Wang,

Huang

et al. 2024

ACS Photonics

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show abstract

碲化汞胶体量子点及红外光电探测技术（特邀）

Wang Binbin,

Lan Xinzheng

2024

Laser Optoelectron. Prog.

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Synergism in Binary Nanocrystals Enables Top-Illuminated HgTe Colloidal Quantum Dot Short-Wave Infrared Imager

Cited by 2 publications

References 43 publications

Interfacially-Engineered HgTe Colloidal Quantum Dot Photodiodes Using Self-Assembled Monolayer

Interfacially-Engineered HgTe Colloidal Quantum Dot Photodiodes Using Self-Assembled Monolayer

碲化汞胶体量子点及红外光电探测技术（特邀）

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