THE ROLES OF PHOTOLUMINESCENT QUANTUM DOTS IN GENERATION OR DETECTION OF REACTIVE OXYGEN SPECIES: CULPRITS OR DETECTIVES?

Bulletin - Cosmos Club. Cosmos Club (Washington, D.C.) Pub Date : 2010-12-01 DOI:10.1142/S0219607710000590

Suhua Wang, Dejian Huang

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Abstract

In this review, we systematically analyzed the complicated interrelationship between photoluminescent quantum dots (QDs) and reactive oxygen species of biological importance. QDs, when photoexcited, generate reactive oxygen species (ROS), which are partially blamed for the cytotoxicity of QDs. On the positive side, the ability of generating ROS by QDs are exploited in photodynamic therapy using QDs alone or in combination with QD-surface bound organic sensitizers via resonance energy transfer from QDs to the organic dyes. Lastly, depending on the chemical composition and the functionalization of the QDs, ROS are known to quench or switch-on the QD photoluminescence. The selectivity and sensitivity toward specific ROS can be achieved through judicious chemical modification of QD surface coating layers by taking into account the reactivity difference among different ROS. The flexible QD surface functionalization opens up the unprecedented possibility of designer-made nanoprobes for sensing and quantifying ROS of biological importance.

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光致发光量子点在活性氧生成或检测中的作用:罪魁祸首还是侦探?

本文系统分析了光致发光量子点(QDs)与活性氧之间复杂的相互关系。当量子点被光激发时，会产生活性氧(ROS)，这是量子点细胞毒性的部分原因。从积极的方面来看，量子点产生ROS的能力被利用于光动力治疗中，利用量子点单独使用或与量子点表面结合的有机敏化剂结合，通过从量子点到有机染料的共振能量转移。最后，根据量子点的化学成分和功能化，已知ROS可以猝灭或开启量子点的光致发光。考虑到不同活性氧之间的反应性差异，通过对QD表面涂层进行合理的化学修饰，可以达到对特定活性氧的选择性和敏感性。灵活的量子点表面功能化开辟了前所未有的可能性，设计师制造的纳米探针用于传感和量化生物重要性的活性氧。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Bulletin - Cosmos Club. Cosmos Club (Washington, D.C.)

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