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Direct deposition of lead sulfide nano-optoelectronic films on polymer substrate.

Authors :
Xiong, Shuxian
Li, Wei
Yan, Changzeng
Sun, Rong
Source :
Modern Physics Letters B. 11/30/2021, Vol. 35 Issue 33, p1-15. 15p.
Publication Year :
2021

Abstract

Nanocrystals have exhibited unique optoelectronic properties and demonstrated a wide range of applications in light-emitting devices, semiconductor devices and solar cell devices. However, previous studies usually deposit nanocrystal films on traditional rigid substrates, limiting their applications in large-scale, direct-deposited flexible device fabrication processes, such as roll-to-roll printing process. Here, we report a direct deposition method for lead sulfide (PbS) nanocrystal films on flexible polymer substrates. By adding triethanolamine-coordinated Pb precursors to the reaction system to enhance the adhesion to the substrate and controlling the precursor ratios, we obtained high-quality flexible PbS films. The film is composed of octahedral PbS nanocrystals with preferred (111) orientation. The optical band gap of the nanocrystal films can be tuned from 1.32 eV to 1.60 eV by adjusting the ratio of the precursors, and an ideal band gap of 1.4 eV for single-junction solar cells was also obtained when Pb to S ratio reaches 1.4:1. More importantly, the flexible PbS films exhibit high charge carrier mobility of up to 25 cm2 V − 1  s − 1 , which is comparable to that of PbS films grown on traditional rigid substrates (e.g. silicon wafers or glasses). To our knowledge, this mobility is also the highest for PbS fabricated directly on flexible substrates. Our study provides a new approach for the preparation of low-cost and roll-to-roll processable nanocrystal films for future flexible optoelectronic devices. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
02179849
Volume :
35
Issue :
33
Database :
Academic Search Index
Journal :
Modern Physics Letters B
Publication Type :
Academic Journal
Accession number :
153791874
Full Text :
https://doi.org/10.1142/S0217984921505023