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The Composition-Dependent Photoluminescence Properties of Non-Stoichiometric Zn(x)Ag(y)InS(1.5+x+0.5y) Nanocrystals
A facile hot injection approach to synthesize high-quality non-stoichiometric Zn(x)Ag(y)InS(1.5+x+0.5y) nanocrystals (NCs) in the size range of 2.8–3.1 nm was presented. The fluorescence spectra had single band gap features, and indicated the formation of alloy states rather than simple composite st...
Autores principales: | , , , , |
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Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
MDPI
2019
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Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6680743/ https://www.ncbi.nlm.nih.gov/pubmed/31266136 http://dx.doi.org/10.3390/mi10070439 |
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author | Feng, Jian Yang, Xiaosheng Li, Rong Yang, Xianjiong Feng, Guangwei |
author_facet | Feng, Jian Yang, Xiaosheng Li, Rong Yang, Xianjiong Feng, Guangwei |
author_sort | Feng, Jian |
collection | PubMed |
description | A facile hot injection approach to synthesize high-quality non-stoichiometric Zn(x)Ag(y)InS(1.5+x+0.5y) nanocrystals (NCs) in the size range of 2.8–3.1 nm was presented. The fluorescence spectra had single band gap features, and indicated the formation of alloy states rather than simple composite structures. The chemical compositions, photoluminescence (PL) emission wavelengths, and quantum yields of Zn(x)Ag(y)InS(1.5+x+0.5y) nanocrystals were significantly influenced by the concentration of an organic capping agent. The appropriate proportion of 1-dodecanthiol in the precursor prevented the precipitation, increased the fluorescence quantum yield, and improved their optical properties. The proper ratio of capping agent allowed Zn, Ag, and In to form a better crystallinity and compositional homogeneity of Zn(x)Ag(y)InS(1.5+x+0.5y) nanocrystals. The photoluminescence was tunable from blue to red in the range of 450–700 nm as the Ag content changed independently. The PL and absorption spectra of Zn(x)Ag(y)InS(1.5+x+0.5y) nanocrystals showed a significant blue shift with the decrease of Ag content in the precursor. As there were no obvious differences on the average particle sizes of Zn(x)Ag(y)InS(1.5+x+0.5y) samples, these results fully revealed the composition-dependent photoluminescence properties of Zn(x)Ag(y)InS(1.5+x+0.5y) nanocrystals. The relative quantum yield reached 35%. The fluorescence lifetimes (τ(1)=115–148 ns and τ(2)=455–483 ns) were analogous to those of AgInS(2) and (AgIn)(x)Zn(2(1−x))S(2). |
format | Online Article Text |
id | pubmed-6680743 |
institution | National Center for Biotechnology Information |
language | English |
publishDate | 2019 |
publisher | MDPI |
record_format | MEDLINE/PubMed |
spelling | pubmed-66807432019-08-09 The Composition-Dependent Photoluminescence Properties of Non-Stoichiometric Zn(x)Ag(y)InS(1.5+x+0.5y) Nanocrystals Feng, Jian Yang, Xiaosheng Li, Rong Yang, Xianjiong Feng, Guangwei Micromachines (Basel) Communication A facile hot injection approach to synthesize high-quality non-stoichiometric Zn(x)Ag(y)InS(1.5+x+0.5y) nanocrystals (NCs) in the size range of 2.8–3.1 nm was presented. The fluorescence spectra had single band gap features, and indicated the formation of alloy states rather than simple composite structures. The chemical compositions, photoluminescence (PL) emission wavelengths, and quantum yields of Zn(x)Ag(y)InS(1.5+x+0.5y) nanocrystals were significantly influenced by the concentration of an organic capping agent. The appropriate proportion of 1-dodecanthiol in the precursor prevented the precipitation, increased the fluorescence quantum yield, and improved their optical properties. The proper ratio of capping agent allowed Zn, Ag, and In to form a better crystallinity and compositional homogeneity of Zn(x)Ag(y)InS(1.5+x+0.5y) nanocrystals. The photoluminescence was tunable from blue to red in the range of 450–700 nm as the Ag content changed independently. The PL and absorption spectra of Zn(x)Ag(y)InS(1.5+x+0.5y) nanocrystals showed a significant blue shift with the decrease of Ag content in the precursor. As there were no obvious differences on the average particle sizes of Zn(x)Ag(y)InS(1.5+x+0.5y) samples, these results fully revealed the composition-dependent photoluminescence properties of Zn(x)Ag(y)InS(1.5+x+0.5y) nanocrystals. The relative quantum yield reached 35%. The fluorescence lifetimes (τ(1)=115–148 ns and τ(2)=455–483 ns) were analogous to those of AgInS(2) and (AgIn)(x)Zn(2(1−x))S(2). MDPI 2019-07-01 /pmc/articles/PMC6680743/ /pubmed/31266136 http://dx.doi.org/10.3390/mi10070439 Text en © 2019 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/). |
spellingShingle | Communication Feng, Jian Yang, Xiaosheng Li, Rong Yang, Xianjiong Feng, Guangwei The Composition-Dependent Photoluminescence Properties of Non-Stoichiometric Zn(x)Ag(y)InS(1.5+x+0.5y) Nanocrystals |
title | The Composition-Dependent Photoluminescence Properties of Non-Stoichiometric Zn(x)Ag(y)InS(1.5+x+0.5y) Nanocrystals |
title_full | The Composition-Dependent Photoluminescence Properties of Non-Stoichiometric Zn(x)Ag(y)InS(1.5+x+0.5y) Nanocrystals |
title_fullStr | The Composition-Dependent Photoluminescence Properties of Non-Stoichiometric Zn(x)Ag(y)InS(1.5+x+0.5y) Nanocrystals |
title_full_unstemmed | The Composition-Dependent Photoluminescence Properties of Non-Stoichiometric Zn(x)Ag(y)InS(1.5+x+0.5y) Nanocrystals |
title_short | The Composition-Dependent Photoluminescence Properties of Non-Stoichiometric Zn(x)Ag(y)InS(1.5+x+0.5y) Nanocrystals |
title_sort | composition-dependent photoluminescence properties of non-stoichiometric zn(x)ag(y)ins(1.5+x+0.5y) nanocrystals |
topic | Communication |
url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6680743/ https://www.ncbi.nlm.nih.gov/pubmed/31266136 http://dx.doi.org/10.3390/mi10070439 |
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