Fullerenes and Nanodiamonds for Medical Drug Delivery

Nanocrystals [Working Title] Pub Date : 2021-06-08 DOI:10.5772/INTECHOPEN.97867

B. Al-Tamimi, S. Farid

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引用次数: 2

Abstract

Carbon is a chemical element has the ability of forming long carbonic chain. Due to its special electronic structure, each carbon atom can be linked with another carbon atom or with another element via single, double or triple covalent bonds. The special electronic structure of carbon atom affecting on its properties also affecting on its ability of existing in different forms called allotropes. During few last decades, new carbon-based nanomaterials have been described including fullerene, carbon nanotube, graphene and nanodiamond. These new allotropes attracted the interest of science and industry and became as a new and important class of materials due to its outstanding features which candidate for numerous applications. In parallel with new developments in nanomedicine especially in drug delivery field, the targeted delivery systems became an important to overcome the limitations of the old fashion systems. So, it become very important to translate this idea into reality. Fullerene and nanodiamond have a unique combination of structure, morphology and biological properties that make them as a powerful tools for targeted delivery system. So, this chapter will focus on two major aspects: synthesis routes of fullerenes and nanodiamonds, and their role in nanomedicine as drug delivery systems.

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用于医疗药物输送的富勒烯和纳米金刚石

碳是一种化学元素，具有形成长碳链的能力。由于其特殊的电子结构，每个碳原子可以通过单键、双键或三重共价键与另一个碳原子或另一个元素相连。碳原子特殊的电子结构既影响其性质，也影响其以不同形式存在的能力，称为同素异形体。在过去的几十年里，新的碳基纳米材料被描述，包括富勒烯、碳纳米管、石墨烯和纳米金刚石。这些新型同素异形体因其突出的特性而成为一类重要的新型材料，具有广泛的应用前景。随着纳米医学特别是给药领域的新发展，靶向给药系统成为克服传统给药系统局限性的重要途径。因此，将这个想法转化为现实变得非常重要。富勒烯和纳米金刚石具有独特的结构、形态和生物学特性的组合，使它们成为靶向递送系统的有力工具。因此，本章将重点介绍富勒烯和纳米金刚石的合成途径及其在纳米医学中作为药物传递系统的作用。

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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Nanocrystals [Working Title]

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