通过接枝氨基酸基聚（丙烯酰-6-氨基己酸）对聚异丁烯进行表面改性，作为多功能材料。

Surface modification of polyisobutylene via grafting amino acid-based poly (acryloyl-6-aminocaproic acid) as multifunctional material.

机构信息

State Key Laboratory of Polymer Physics and Chemistry, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, Changchun, 130022, PR China; University of Chinese Academy of Sciences, Beijing, 100049, PR China.

State Key Laboratory of Polymer Physics and Chemistry, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, Changchun, 130022, PR China.

出版信息

Colloids Surf B Biointerfaces. 2018 Jan 1;161:73-82. doi: 10.1016/j.colsurfb.2017.10.035. Epub 2017 Oct 12.

DOI:10.1016/j.colsurfb.2017.10.035

PMID:29054046

Abstract

Amino acid-based P(acryloyl-6-aminocaproic acid) (PAACA) brushes were fabricated on polyisobutylene (PIB) surface combined with plasma pre-treatment and UV-induced grafting polymerization to construct an antifouling and functional material. The hydrophilicity and hemocompatibility of PIB were largely improved by surface modification of AACA, which were confirmed by water contact angle and platelet adhesion, respectively. PAACA brushes were precisely located onto the surface of PIB to create a patterned PIB-g-PAACA structure, and then the carboxyl groups on PAACA was activated to immobilize functional protein-Concanavalin A (Con A). The obtained Con A-coupled microdomains could further capture erythrocytes. This method developed a platform on commercial PIB surface via amino acid-based polymer brushes which had a promising application in drug delivery and disease diagnosis.

摘要

基于氨基酸的聚（丙烯酰-6-氨基己酸）（PAACA）刷被制备在聚异丁烯（PIB）表面上，结合等离子体预处理和紫外光诱导接枝聚合，以构建一种抗污染和功能材料。通过 AACA 的表面改性，PIB 的亲水性和血液相容性得到了很大的提高，这分别通过水接触角和血小板黏附来证实。PAACA 刷被精确地定位到 PIB 的表面上，以创建图案化的 PIB-g-PAACA 结构，然后将 PAACA 上的羧基基团激活以固定功能蛋白-伴刀豆球蛋白 A（Con A）。所得的 Con A 偶联的微区可以进一步捕获红细胞。该方法在商业 PIB 表面上开发了一个基于氨基酸聚合物刷的平台，在药物输送和疾病诊断方面具有广阔的应用前景。

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通过接枝氨基酸基聚（丙烯酰-6-氨基己酸）对聚异丁烯进行表面改性，作为多功能材料。

Surface modification of polyisobutylene via grafting amino acid-based poly (acryloyl-6-aminocaproic acid) as multifunctional material.

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