Department of Chemical and Biological Engineering, The University of British Columbia, Vancouver, British Columbia V6T 1Z3, Canada.
ACS Biomater Sci Eng. 2022 Mar 14;8(3):1028-1048. doi: 10.1021/acsbiomaterials.1c01422. Epub 2022 Feb 24.
FRAP (fluorescence recovery after photo bleaching) is a method for determining diffusion in material science. In industrial applications such as medications, foods, Medtech, hygiene, and textiles, the diffusion process has a substantial influence on the overall qualities of goods. All these complex and heterogeneous systems have diffusion-based processes at the local level. FRAP is a fluorescence-based approach for detecting diffusion; in this method, a high-intensity laser is made for a brief period and then applied to the samples, bleaching the fluorescent chemical inside the region, which is subsequently filled up by natural diffusion. This brief Review will focus on the existing research on employing FRAP to measure colloidal system heterogeneity and explore diffusion into complicated structures. This description of FRAP will be followed by a discussion of how FRAP is intended to be used in colloidal science. When constructing the current Review, the most recent publications were reviewed for this assessment. Because of the large number of FRAP articles in colloidal research, there is currently a dearth of knowledge regarding the growth of FRAP's significance to colloidal science. Colloids make up only 2% of FRAP papers, according to ISI Web of Knowledge.
荧光漂白恢复(FRAP)是一种用于确定材料科学中扩散的方法。在医药、食品、医疗技术、卫生和纺织品等工业应用中,扩散过程对商品的整体质量有很大的影响。所有这些复杂和多相的系统在局部水平上都有基于扩散的过程。FRAP 是一种基于荧光的检测扩散的方法;在这种方法中,高强度激光短暂照射,然后应用于样品,漂白该区域内的荧光化学物质,随后通过自然扩散来填充。这篇简短的综述将重点介绍利用 FRAP 测量胶体系统非均质性和探索扩散到复杂结构的现有研究。在介绍 FRAP 时,将讨论它在胶体科学中的应用意图。在构建本综述时,对最新的出版物进行了评估。由于胶体研究中 FRAP 文章的数量众多,目前对 FRAP 对胶体科学的重要性的认识还很缺乏。根据 ISI Web of Knowledge 的数据,胶体仅占 FRAP 论文的 2%。
