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. 2022 Aug;34(33):e2203039.
doi: 10.1002/adma.202203039. Epub 2022 Jul 17.

Fast Near-Infrared Photodetection Using III-V Colloidal Quantum Dots

Bin Sun  1 Amin Morteza Najarian  1 Laxmi Kishore Sagar  1 Margherita Biondi  1 Min-Jae Choi  1 Xiyan Li  1 Larissa Levina  1 Se-Woong Baek  1 Chao Zheng  1 Seungjin Lee  1 Ahmad R Kirmani  2 Randy Sabatini  1 Jehad Abed  1 Mengxia Liu  1 Maral Vafaie  1 Peicheng Li  3 Lee J Richter  2 Oleksandr Voznyy  1 Mahshid Chekini  4 Zheng-Hong Lu  3 F Pelayo García de Arquer  1 Edward H Sargent  1
Affiliations

Fast Near-Infrared Photodetection Using III-V Colloidal Quantum Dots

Bin Sun et al. Adv Mater. 2022 Aug.

Abstract

Colloidal quantum dots (CQDs) are promising materials for infrared (IR) light detection due to their tunable bandgap and their solution processing; however, to date, the time response of CQD IR photodiodes is inferior to that provided by Si and InGaAs. It is reasoned that the high permittivity of II-VI CQDs leads to slow charge extraction due to screening and capacitance, whereas III-Vs-if their surface chemistry can be mastered-offer a low permittivity and thus increase potential for high-speed operation. In initial studies, it is found that the covalent character in indium arsenide (InAs) leads to imbalanced charge transport, the result of unpassivated surfaces, and uncontrolled heavy doping. Surface management using amphoteric ligand coordination is reported, and it is found that the approach addresses simultaneously the In and As surface dangling bonds. The new InAs CQD solids combine high mobility (0.04 cm2 V-1 s-1 ) with a 4× reduction in permittivity compared to PbS CQDs. The resulting photodiodes achieve a response time faster than 2 ns-the fastest photodiode among previously reported CQD photodiodes-combined with an external quantum efficiency (EQE) of 30% at 940 nm.

Keywords: fast photodetectors; heavy-metal free; near-infrared; photodiodes; quantum dots.

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