超越 nC60:鉴定水生和生物样品中富勒烯氧化转化产物的策略。
Beyond nC60: strategies for identification of transformation products of fullerene oxidation in aquatic and biological samples.
机构信息
Swette Center for Environmental Biotechnology, The Biodesign Institute at Arizona State University, Tempe, 85287, USA.
出版信息
Anal Bioanal Chem. 2012 Nov;404(9):2583-95. doi: 10.1007/s00216-012-6090-8. Epub 2012 May 28.
Abstract
Owing to their exceptional properties and versatility, fullerenes are in widespread use for numerous applications. Increased production and use of fullerenes will inevitably result in accelerated environmental release. However, study of the occurrence, fate, and transport of fullerenes in the environment is complicated because a variety of surface modifications can occur as a result of either intentional functionalization or natural processes. To gain a better understanding of the effect and risk of fullerenes on environmental health, it is necessary to acquire reliable data on the parent compounds and their congeners. Whereas currently established quantification methods generally focus on analysis of unmodified fullerenes, we discuss in this review the occurrence and analysis of oxidized fullerene congeners (i.e., their corresponding epoxides and polyhydroxylated derivatives) in the environment and in biological specimens. We present possible strategies for detection and quantification of parent nanomaterials and their various derivatives.
摘要
由于富勒烯具有特殊的性质和多功能性,因此被广泛应用于许多领域。富勒烯的产量和使用的增加不可避免地会导致其在环境中的加速释放。然而,由于可能会发生各种表面修饰,无论是有意的功能化还是自然过程,因此研究富勒烯在环境中的存在、归宿和迁移变得非常复杂。为了更好地了解富勒烯对环境健康的影响和风险,有必要获得有关母体化合物及其同系物的可靠数据。虽然目前已建立的定量方法通常侧重于分析未修饰的富勒烯,但我们在这篇综述中讨论了环境和生物样本中氧化富勒烯同系物(即相应的环氧化物和多羟基衍生物)的出现和分析。我们提出了检测和定量母体纳米材料及其各种衍生物的可能策略。
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