量子点及其潜在的生物医学应用

Hexuan Ma
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摘要

量子点(QDs)是一种基于半导体的纳米晶体。这些纳米粒子具有独特的光学和电子特性。凭借这些特性,近年来,除了光催化、发光和太阳能电池等其他应用外,量子点还在生物成像、药物输送和生物传感器等生物医学领域引起了科学家们的兴趣。然而,QDs 的潜在毒性成为 QDs 在生物医学领域应用的限制因素。QDs 的毒性可能来自:QDs 核心材料的毒性;QDs 表面的毒性物质;QDs 释放的自由基或活性物种;生物环境诱发的 QDs 毒性。本文综述了 QDs 的特性、QDs 在不同生物医学领域的应用、QDs 如何引起毒性以及如何减少或预防 QDs 潜在的毒性。未来,我们期待着 QDs 在生物医学领域的改进和进一步应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quantum dots and their potential biomedical applications
Quantum dots (QDs) are semiconductor-based nanocrystals. These nanoparticles have exhibited their unique optical and electronic properties. With these characteristics, QDs attracted scientists interest in biomedical areas such as bioimaging, drug delivery and biosensors apart from other applications like photocatalysis, light-emitting, and solar cells in recent years, and plenty of QDs and QD-based materials have exhibited their unique properties in their applications of biomedical areas. Nevertheless, the potential toxicity of QDs becomes the limitation of QDs application in biomedical areas. The toxicity of QDs might come from: the toxicity core material of QDs; the toxicity substances from the surface of QDs; the free radicals or reactive species released from QDs; the biological environment induced QDs toxicity. In this article, we review the properties of QDs, the applications of QDs in different biomedical fields, how QDs cause toxicity, and how to reduce or prevent QDs potential toxicity. In the future, we expect the improvement and further application of QDs in biomedical areas.
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