高分子刷在生物应用中的作用

生物芯片进展(英文) Pub Date : 2021-01-01 DOI:10.25082/AB.2021.01.001

Ajinkya Raut, P. Renner, Rick Wang, S. Kazadi, Siddhi Mehta, Yan Chen, Hong Liang

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引用次数: 2

摘要

聚合物刷是高分子结构，聚合物链系在类似刷的表面上。它们在生物应用中显示出多种用途。由于精心制作的聚合物的性质，功能化表面表现出独特的功能，如低摩擦，改变附着力，蛋白质结合和选择性吸附。功能化可以通过改变诸如接枝密度、化学构型、形状和厚度等参数来控制。本文重点介绍了聚合物刷的超低摩擦、亲水性、细长表面和结合性能，以及聚合物刷在生物领域的应用研究。它为研究和实验室寻找药物输送、关节炎、人工关节、抗生素涂层和蛋白质固定和纯化的更好解决方案提供了有用的信息。

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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Roles of polymer brushes in biological applications

Polymer brushes are macromolecular structures with polymer chains tethered to a surface resembling a brush. They have shown variety of uses in biological applications. Because of the nature of crafted polymers, the functionalized surfaces exhibit unique functions such as low friction, altered adhesion, protein binding and selective adsorption. Functionalization can be controlled by changing parameters such as grafting densities, chemical configurations, shapes and thickness. In this review, a particular emphasis has been provided for studies related to biological applications of polymer brushes based on their ultra-low friction, hydrophilic elongated surfaces, and binding properties. It provides useful information for researches and labs working on finding better solutions for drug delivery, arthritis, artificial joints, antibiofouling coatings and protein immobilization and purification.

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生物芯片进展(英文)

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