High performance solution-processed infrared photodiode based on ternary PbSxSe1−x colloidal quantum dots

Semiconductor quantum dots (QDs) have been the subject for wide research studies owing to their quantum confinement effect. Photodetectors or photodiodes are recognized potential applications for QDs due to their high photosensitivity, solution processability and low cost of production. In this pape...

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Bibliographic Details
Published in:RSC advances Vol. 6; no. 9; pp. 8773 - 87737
Main Authors: Sulaman, Muhammad, Yang, Shengyi, Song, Taojian, Wang, Haowei, Wang, Yishan, He, Bo, Dong, Miao, Tang, Yi, Song, Yong, Zou, Bingsuo
Format: Journal Article
Language:English
Published: 14.09.2016
Subjects:
absorption
Devices
Electrodes
energy
indium tin oxide
Interlayers
ligands
lighting
mole fraction
nanocrystals
Photodiodes
photoluminescence
Photosensitivity
production costs
Quantum dots
selenium
Semiconductors
sulfur
Zinc oxide
ISSN:2046-2069, 2046-2069
Online Access:Get full text
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Summary:Semiconductor quantum dots (QDs) have been the subject for wide research studies owing to their quantum confinement effect. Photodetectors or photodiodes are recognized potential applications for QDs due to their high photosensitivity, solution processability and low cost of production. In this paper, a solution-processed near-infrared photodiode ITO/ZnO/PbS x Se 1− x /Au, in which ternary PbS x Se 1− x QDs act as the active layer and the ZnO interlayer acts as electron-transporting layer, was demonstrated. The photosensitive spectrum can be broadened by adjusting the molar fraction of ternary PbS x Se 1− x QDs. The narrow band edge of absorption and photoluminescence exciton energy of PbS x Se 1− x alloyed NCs were blue-shifted from the band edge of the same size PbSe QDs to the band edge of PbS QDs by controlling the S/(Se + S) molar ratio in the synthetic mixture. Efficient electron extraction was carried out by inserting a solution-processed ZnO interlayer between the indium-tin oxide (ITO) electrode and the active layer. Our experimental results show that the solution processing of the ZnO layer can lead to high-performance photodiodes by using photosensitized PbS 0.4 Se 0.6 alloyed nanocrystals as the active layer. The effect of the thickness of the active layer on the device performance was briefly described and a maximum photoresponsivity and specific detectivity of 25.8 A/W and 1.30 × 10 13 Jones, respectively, were obtained at a certain thickness under 100 μW cm −2 980 nm laser illumination. The devices are made stably by layer-by-layer ligand exchange treatment. High performance solution-processed infrared photodiodes ITO/ZnO/PbS x Se 1− x /Au, in which ternary PbS x Se 1− x colloidal quantum dots acts as the active layer and ZnO interlayer acts as electron-transporting layer, have been demonstrated.
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ISSN:2046-2069
2046-2069
DOI:10.1039/c6ra19946a