整合两性离子共轭聚（羧基甜菜碱噻吩）作为一种新型生物材料平台。

Integrated zwitterionic conjugated poly(carboxybetaine thiophene) as a new biomaterial platform.

作者信息

Cao Bin, Tang Qiong, Li Linlin, Lee Chen-Jung, Wang Hua, Zhang Yanqiao, Castaneda Homero, Cheng Gang

机构信息

Department of Chemical and Biomolecular Engineering , University of Akron , Akron , Ohio 44325 , USA . Email:

Department of Chemistry , University of Akron , Akron , Ohio 44325 , USA.

出版信息

Chem Sci. 2015 Jan 1;6(1):782-788. doi: 10.1039/c4sc02200a. Epub 2014 Sep 30.

DOI:10.1039/c4sc02200a

PMID:28936320

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5592746/

Abstract

An integrated zwitterionic conjugated polymer-based biomaterial platform was designed and studied to address some of the key challenges of conjugated polymers in biomedical applications. This biomaterial platform consists of conjugated polymer backbones and multifunctional zwitterionic side chains. Zwitterionic materials gain electrical conductivity and interesting optical properties through conjugated polymer backbones, and non-biocompatible conjugated polymers obtain excellent antifouling properties, enhanced electrical conductivity, functional groups of bioconjugation and response to environmental stimuli multifunctional zwitterionic side chains. This platform can potentially be adapted to a wide range of applications ( bioelectronics, tissue engineering and biofuel cell), which require high performance conducting materials with excellent antifouling/biocompatibility at biointerfaces.

摘要

设计并研究了一种基于两性离子共轭聚合物的集成生物材料平台，以应对共轭聚合物在生物医学应用中的一些关键挑战。该生物材料平台由共轭聚合物主链和多功能两性离子侧链组成。两性离子材料通过共轭聚合物主链获得导电性和有趣的光学性质，而非生物相容性的共轭聚合物则通过多功能两性离子侧链获得优异的抗污性能、增强的导电性、生物共轭官能团以及对环境刺激的响应。该平台有可能适用于广泛的应用（生物电子学、组织工程和生物燃料电池），这些应用需要在生物界面具有优异抗污/生物相容性的高性能导电材料。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5025/5592746/1a205a52e15b/c4sc02200a-s1.jpg

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整合两性离子共轭聚（羧基甜菜碱噻吩）作为一种新型生物材料平台。

Integrated zwitterionic conjugated poly(carboxybetaine thiophene) as a new biomaterial platform.

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