High-Performance Quantum Dots with Synergistic Doping and Oxide Shell Protection Synthesized by Cation Exchange Conversion of Ternary-Composition Nanoparticles

Qiumei Di; Xiyue Zhu; Jia Liu; Xiaobin Zhang; Huishan Shang; Wenxing Chen; Jiajia Liu; Hongpan Rong; Meng Xu; Jiatao Zhang

doi:10.1021/acs.jpclett.9b00617

High-Performance Quantum Dots with Synergistic Doping and Oxide Shell Protection Synthesized by Cation Exchange Conversion of Ternary-Composition Nanoparticles

Qiumei Di, Xiyue Zhu, Jia Liu, Xiaobin Zhang, Huishan Shang, Wenxing Chen, Jiajia Liu, Hongpan Rong, Meng Xu, Jiatao Zhang^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

18 引用（Scopus）

摘要

The insertion of cation impurities into quantum dots (QDs) as a dopant has been proved to be an efficient way to tailor their optical, electronic, and magnetic properties; however, the low quantum yield (QY) and poor photostability strongly limit their further applications. We report a strategy to coat a thin oxide shell around the heterovalent doped QDs to enhance their QYs and photostabilities simultaneously. In the case of Ag⁺-doped CdS QDs, the controlled cation exchange reaction between Cd²⁺ and ternary Ag₃SbS₃ nanoparticles not only realizes the Ag⁺ doping in CdS QDs but also generates a thin Sb₂O₃ shell around the surface of the QDs. Enabled by such, as-prepared CdS:Ag@Sb₂O₃ QDs exhibited enhanced photostability and high QY of 66.5%. We envision that the findings presented here will inspire more novel protocols for advancing the practical applications of doped QDs.

源语言	英语
页（从-至）	2606-2615
页数	10
期刊	Journal of Physical Chemistry Letters
卷	10
期	10
DOI	https://doi.org/10.1021/acs.jpclett.9b00617
出版状态	已出版 - 16 5月 2019

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title = "High-Performance Quantum Dots with Synergistic Doping and Oxide Shell Protection Synthesized by Cation Exchange Conversion of Ternary-Composition Nanoparticles",

abstract = "The insertion of cation impurities into quantum dots (QDs) as a dopant has been proved to be an efficient way to tailor their optical, electronic, and magnetic properties; however, the low quantum yield (QY) and poor photostability strongly limit their further applications. We report a strategy to coat a thin oxide shell around the heterovalent doped QDs to enhance their QYs and photostabilities simultaneously. In the case of Ag+-doped CdS QDs, the controlled cation exchange reaction between Cd2+ and ternary Ag3SbS3 nanoparticles not only realizes the Ag+ doping in CdS QDs but also generates a thin Sb2O3 shell around the surface of the QDs. Enabled by such, as-prepared CdS:Ag@Sb2O3 QDs exhibited enhanced photostability and high QY of 66.5%. We envision that the findings presented here will inspire more novel protocols for advancing the practical applications of doped QDs.",

author = "Qiumei Di and Xiyue Zhu and Jia Liu and Xiaobin Zhang and Huishan Shang and Wenxing Chen and Jiajia Liu and Hongpan Rong and Meng Xu and Jiatao Zhang",

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Di, Q, Zhu, X, Liu, J, Zhang, X, Shang, H, Chen, W , Liu, J , Rong, H, Xu, M & Zhang, J 2019, 'High-Performance Quantum Dots with Synergistic Doping and Oxide Shell Protection Synthesized by Cation Exchange Conversion of Ternary-Composition Nanoparticles', Journal of Physical Chemistry Letters, 卷 10, 号码 10, 页码 2606-2615. https://doi.org/10.1021/acs.jpclett.9b00617

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T1 - High-Performance Quantum Dots with Synergistic Doping and Oxide Shell Protection Synthesized by Cation Exchange Conversion of Ternary-Composition Nanoparticles

AU - Di, Qiumei

AU - Zhu, Xiyue

AU - Liu, Jia

AU - Zhang, Xiaobin

AU - Shang, Huishan

AU - Chen, Wenxing

AU - Liu, Jiajia

AU - Rong, Hongpan

AU - Xu, Meng

AU - Zhang, Jiatao

PY - 2019/5/16

Y1 - 2019/5/16

N2 - The insertion of cation impurities into quantum dots (QDs) as a dopant has been proved to be an efficient way to tailor their optical, electronic, and magnetic properties; however, the low quantum yield (QY) and poor photostability strongly limit their further applications. We report a strategy to coat a thin oxide shell around the heterovalent doped QDs to enhance their QYs and photostabilities simultaneously. In the case of Ag+-doped CdS QDs, the controlled cation exchange reaction between Cd2+ and ternary Ag3SbS3 nanoparticles not only realizes the Ag+ doping in CdS QDs but also generates a thin Sb2O3 shell around the surface of the QDs. Enabled by such, as-prepared CdS:Ag@Sb2O3 QDs exhibited enhanced photostability and high QY of 66.5%. We envision that the findings presented here will inspire more novel protocols for advancing the practical applications of doped QDs.

AB - The insertion of cation impurities into quantum dots (QDs) as a dopant has been proved to be an efficient way to tailor their optical, electronic, and magnetic properties; however, the low quantum yield (QY) and poor photostability strongly limit their further applications. We report a strategy to coat a thin oxide shell around the heterovalent doped QDs to enhance their QYs and photostabilities simultaneously. In the case of Ag+-doped CdS QDs, the controlled cation exchange reaction between Cd2+ and ternary Ag3SbS3 nanoparticles not only realizes the Ag+ doping in CdS QDs but also generates a thin Sb2O3 shell around the surface of the QDs. Enabled by such, as-prepared CdS:Ag@Sb2O3 QDs exhibited enhanced photostability and high QY of 66.5%. We envision that the findings presented here will inspire more novel protocols for advancing the practical applications of doped QDs.

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High-Performance Quantum Dots with Synergistic Doping and Oxide Shell Protection Synthesized by Cation Exchange Conversion of Ternary-Composition Nanoparticles

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