Issue 17, 2021

A general strategy for semiconductor quantum dot production

Abstract

Mass production of semiconductor quantum dots (QDs) from bulk materials is highly desired but far from being satisfactory. Herein, we report a general strategy to mechanically tailor semiconductor bulk materials into QDs. Semiconductor bulk materials are routinely available via simple chemical precipitation. From their bulk materials, a variety of semiconductor (e.g., lead sulfide (PbS), cadmium sulfide (CdS), copper sulfide (CuS), ferrous sulfide (FeS), and zinc sulfide (ZnS)) QDs are successfully produced in high yields (>15 wt%). This is achieved by a combination of silica-assisted ball-milling and sonication-assisted solvent treatment. The as-produced QDs show intrinsic characteristics and outstanding water solubility (up to 5 mg mL−1), facilitating their practical applications. The QD dispersions present remarkable photoluminescence (PL) with exciton-dependence and nanosecond (ns)-scale lifetimes. The QDs-poly(methyl methacrylate) (PMMA) hybrid thin films demonstrate exciting solid-state fluorescence and exceptional nonlinear saturation absorption (NSA). Absolute modulation depths of up to 58% and saturation intensities down to 0.40 MW cm−2 were obtained. Our strategy could be applied to any semiconductor bulk materials and therefore paves the way for the construction of the complete library of semiconductor QDs.

Graphical abstract: A general strategy for semiconductor quantum dot production

Supplementary files

Article information

Article type
Communication
Submitted
23 Dec 2020
Accepted
27 Mar 2021
First published
29 Mar 2021

Nanoscale, 2021,13, 8004-8011

A general strategy for semiconductor quantum dot production

Y. Xu, W. Wang, Z. Chen, X. Sui, A. Wang, C. Liang, J. Chang, Y. Ma, L. Song, W. Jiang, J. Zhou, X. Liu and Y. Zhang, Nanoscale, 2021, 13, 8004 DOI: 10.1039/D0NR09067K

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