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具有均匀粒径和近红外二区窗口明亮可调荧光的超小Pb:Ag S量子点

Ultrasmall Pb:Ag S Quantum Dots with Uniform Particle Size and Bright Tunable Fluorescence in the NIR-II Window.

作者信息

He He, Lin Yi, Tian Zhi-Quan, Zhu Dong-Liang, Zhang Zhi-Ling, Pang Dai-Wen

机构信息

Key Laboratory of Analytical Chemistry for Biology and Medicine (Ministry of Education), College of Chemistry and Molecular Sciences, State Key Laboratory of Virology, The Institute for Advanced Studies, Wuhan Institute of Biotechnology, Wuhan University, Wuhan, 430072, P. R. China.

出版信息

Small. 2018 Mar;14(11):e1703296. doi: 10.1002/smll.201703296. Epub 2018 Jan 29.

DOI:10.1002/smll.201703296

PMID:29377531

Abstract

Ag S quantum dots (QDs) are well-known near-infrared fluorophores and have attracted great interest in biomedical labeling and imaging in the past years. However, their photoluminescence efficiency is hard to compete with Cd-, Pb-based QDs. The high Ag mobility in Ag S crystal, which causes plenty of cation deficiency and crystal defects, may be responsible mainly for the low photoluminescence quantum yield (PLQY) of Ag S QDs. Herein, a cation-doping strategy is presented via introducing a certain dosage of transition metal Pb ions into Ag S nanocrystals to mitigate this intrinsic shortcoming. The Pb-doped Ag S QDs (designated as Pb:Ag S QDs) present a renovated crystal structure and significantly enhanced optical performance. Moreover, by simply adjusting the levels of Pb doping in the doped nanocrystals, Pb:Ag S QDs with bright emission (PLQY up to 30.2%) from 975 to 1242 nm can be prepared without altering the ultrasmall particle size (≈2.7-2.8 nm). Evidently, this cation-doping strategy facilitates both the renovation of crystal structure of Ag S QDs and modulation of their optical properties.

摘要

硫化银量子点（QDs）是著名的近红外荧光团，在过去几年中引起了生物医学标记和成像领域的极大关注。然而，它们的光致发光效率难以与基于镉、铅的量子点相竞争。硫化银晶体中银的高迁移率导致大量阳离子缺陷和晶体缺陷，这可能是硫化银量子点光致发光量子产率（PLQY）低的主要原因。在此，通过将一定剂量的过渡金属铅离子引入硫化银纳米晶体中，提出了一种阳离子掺杂策略，以减轻这一固有缺点。铅掺杂的硫化银量子点（称为Pb:Ag₂S QDs）呈现出全新的晶体结构和显著增强的光学性能。此外，通过简单地调整掺杂纳米晶体中铅的掺杂水平，可以制备出在975至1242 nm范围内具有明亮发射（PLQY高达30.2%）的Pb:Ag₂S QDs，而不改变超小粒径（≈2.7 - 2.8 nm）。显然，这种阳离子掺杂策略既有助于硫化银量子点晶体结构的更新，也有助于其光学性质的调控。

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具有均匀粒径和近红外二区窗口明亮可调荧光的超小Pb:Ag S量子点

Ultrasmall Pb:Ag S Quantum Dots with Uniform Particle Size and Bright Tunable Fluorescence in the NIR-II Window.

作者信息

机构信息

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