Poly(allylamine) and cysteine co-capped silver indium sulfide quantum dots with excellent photostability for specific Cd2+ and Zn2+ detection based on fluorescence enhancement

IF 5.8 2区 材料科学 Q2 CHEMISTRY, PHYSICAL
Jinhong Gong, Xuenong Zhang, Shan Xu, Hao Yang, Kun Yan, Xueyun Sun, Dan Su, Hufeng Fang
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引用次数: 0

Abstract

Metal chalcogenide quantum dots (MCQDs) have received tremendous attention in biomedical field for their fascinating optical properties and the admirable biomolecular modifiability. However, challenged by low stability and notorious biocompatibility, MCQDs make them limited for direct biomedical use. Herein, a novel designed and synthesized poly(allylamine) and cysteine co-capped silver indium sulfide quantum dots (PAA-Cys-AIS QDs) with excellent photostability is reported for the specific rapid detection of Cd2+ and Zn2+ ions. The obtained water-soluble PAA-Cys-AIS QDs emitted a stable orange fluorescence at 625 nm with an average size of 3.639 ± 1.006 nm. The unusual anti-photobleaching property of PAA-Cys-AIS QDs is demonstrated to be owing to the introducing of poly(allylamine) and cysteine, which uniquely increased the crystallinity and hydrodynamic size of the structure system. Unexpectedly, unlike most reported approaches for Cd2+ and Zn2+ detection based on the quenching fluorescence mechanism, the PAA-Cys-AIS QDs showed remarkable and rapid fluorescence enhancement after being exposed to Cd2+ and Zn2+ ions aqueous solutions. Notably, the detection limits of the new probe for Cd2+ and Zn2+ are 175 and 50 nM respectively. Complexation and metal ions doping mechanisms are proposed to be responsible for the enhancement of photoluminescence intensity based on the metal ions capture capacity coming from PAA-Cys-AIS QDs’ intrinsic defects and abundant surface amino functional groups. Moreover, the intracellular photostability and biocompatibility of PAA-Cys-AIS QDs are strong enough to prompt us to investigate the metal ions imaging applications in SH-SY5Y cells to further demonstrate the potential for real-live biomedical applications.
聚(烯丙胺)和半胱氨酸共封端硫化银铟量子点具有优异的光稳定性,可用于基于荧光增强的 Cd2+ 和 Zn2+ 特异性检测
金属卤化物量子点(MCQDs)因其迷人的光学特性和令人赞叹的生物分子可调控性,在生物医学领域受到极大关注。然而,MCQDs 的低稳定性和众所周知的生物相容性使其在生物医学领域的直接应用受到限制。本文报告了一种新设计和合成的具有优异光稳定性的聚烯胺和半胱氨酸共封端硫化银铟量子点(PAA-Cys-AIS QDs),用于特异性快速检测 Cd2+ 和 Zn2+ 离子。所获得的水溶性 PAA-Cys-AIS QDs 在 625 纳米波长下发出稳定的橙色荧光,平均粒径为 3.639 ± 1.006 纳米。PAA-Cys-AIS QDs 不同寻常的抗光漂白特性被证明是由于引入了聚(烯丙基胺)和半胱氨酸,从而独特地增加了结构体系的结晶度和流体力学尺寸。出乎意料的是,与大多数基于淬灭荧光机制的 Cd2+ 和 Zn2+ 检测方法不同,PAA-Cys-AIS QDs 在暴露于 Cd2+ 和 Zn2+ 离子水溶液后显示出显著而快速的荧光增强。值得注意的是,新探针对 Cd2+ 和 Zn2+ 的检测限分别为 175 nM 和 50 nM。根据 PAA-Cys-AIS QDs 的固有缺陷和丰富的表面氨基官能团所产生的金属离子捕获能力,提出了络合和金属离子掺杂机制是光致发光强度增强的原因。此外,PAA-Cys-AIS QDs 的细胞内光稳定性和生物相容性足以促使我们研究其在 SH-SY5Y 细胞中的金属离子成像应用,以进一步证明其在实际生物医学应用中的潜力。
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来源期刊
Journal of Alloys and Compounds
Journal of Alloys and Compounds 工程技术-材料科学:综合
CiteScore
11.10
自引率
14.50%
发文量
5146
审稿时长
67 days
期刊介绍: The Journal of Alloys and Compounds is intended to serve as an international medium for the publication of work on solid materials comprising compounds as well as alloys. Its great strength lies in the diversity of discipline which it encompasses, drawing together results from materials science, solid-state chemistry and physics.
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