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用于细胞成像与药物递送的纳米氧化石墨烯

Nano-Graphene Oxide for Cellular Imaging and Drug Delivery.

作者信息

Sun Xiaoming, Liu Zhuang, Welsher Kevin, Robinson Joshua Tucker, Goodwin Andrew, Zaric Sasa, Dai Hongjie

机构信息

Department of Chemistry and Laboratory for Advanced Materials, Stanford University, Stanford, CA 94305, USA.

出版信息

Nano Res. 2008;1(3):203-212. doi: 10.1007/s12274-008-8021-8.

DOI:10.1007/s12274-008-8021-8
PMID:20216934
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2834318/
Abstract

Two-dimensional graphene offers interesting electronic, thermal, and mechanical properties that are currently being explored for advanced electronics, membranes, and composites. Here we synthesize and explore the biological applications of nano-graphene oxide (NGO), i.e., single-layer graphene oxide sheets down to a few nanometers in lateral width. We develop functionalization chemistry in order to impart solubility and compatibility of NGO in biological environments. We obtain size separated pegylated NGO sheets that are soluble in buffers and serum without agglomeration. The NGO sheets are found to be photoluminescent in the visible and infrared regions. The intrinsic photoluminescence (PL) of NGO is used for live cell imaging in the near-infrared (NIR) with little background. We found that simple physisorption via pi-stacking can be used for loading doxorubicin, a widely used cancer drug onto NGO functionalized with antibody for selective killing of cancer cells in vitro. Owing to its small size, intrinsic optical properties, large specific surface area, low cost, and useful non-covalent interactions with aromatic drug molecules, NGO is a promising new material for biological and medical applications.

摘要

二维石墨烯具有有趣的电子、热学和机械性能,目前正被用于先进电子学、薄膜和复合材料领域的探索。在此,我们合成并探索了纳米氧化石墨烯(NGO)的生物学应用,即横向宽度低至几纳米的单层氧化石墨烯片。我们开发了功能化化学方法,以使NGO在生物环境中具有溶解性和相容性。我们获得了尺寸分离的聚乙二醇化NGO片,其可溶于缓冲液和血清且不会发生团聚。发现NGO片在可见光和红外区域具有光致发光特性。NGO的固有光致发光(PL)用于近红外(NIR)活细胞成像,背景干扰小。我们发现,通过π-堆积进行简单的物理吸附可用于将广泛使用的抗癌药物阿霉素负载到用抗体功能化的NGO上,从而在体外选择性杀死癌细胞。由于其尺寸小、固有光学特性、大比表面积、低成本以及与芳香族药物分子的有用非共价相互作用,NGO是一种用于生物学和医学应用的有前景的新材料。

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