Biocompatible Carbon Nanodots for Functional Imaging and Cancer Therapy

International journal of biomedical engineering and clinical science Pub Date : 2018-07-01 DOI:10.4018/IJBCE.2018070103

A. Loukanov, H. Gagov, Milena Mishonova, S. Nakabayashi

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引用次数: 3

Abstract

This article describes how carbon quantum dots (C-dots) are tiny carbon nanoparticles (less than 10 nm in size) being envisaged to be used in bio-sensing, bio-imaging and drug delivery nanosystems. Their low toxicity and stable chemical properties make them suitable candidates for new types of fluorescent probe, which overcome the common drawbacks of previous fluorescent probes (organic dyes and inorganic quantum dots). In addition, fluorescent C-dots possess a rather strong ability to bind with other organic and inorganic molecules due to their abundant surface groups. For that reason, fluorescent C-dots can be manipulated via series of controllable chemical treatments in order to satisfy the demands in the photocatalytic, biochemical and chemical sensing, bio-imaging, drug delivery and enhanced cell targeting. In recent studies it was described the development of carbon quantum dots with large two-photon absorption cross sections towards two-photon imaging for use in photodynamic cancer therapy. Thus, C-dots have become a rising star in biomedical research with a promising future for the application in nanomedicine.

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生物相容性碳纳米点用于功能成像和癌症治疗

这篇文章描述了碳量子点(C-dots)是一种微小的碳纳米粒子(尺寸小于10纳米)，被设想用于生物传感、生物成像和药物输送纳米系统。它们的低毒性和稳定的化学性质使它们成为新型荧光探针的合适候选者，克服了以前荧光探针(有机染料和无机量子点)的共同缺点。此外，荧光c点由于其丰富的表面基团，具有很强的与其他有机和无机分子结合的能力。因此，可以通过一系列可控的化学处理来操纵荧光c点，以满足光催化、生化和化学传感、生物成像、药物传递和增强细胞靶向等方面的需求。在最近的研究中，描述了具有大双光子吸收截面的碳量子点在双光子成像方面的发展，用于光动力癌症治疗。因此，C-dots已成为生物医学研究领域的一颗冉冉升起的新星，在纳米医学领域有着广阔的应用前景。

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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International journal of biomedical engineering and clinical science

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