Gauging and Tuning Cross-Linking Kinetics of Catechol-PEG Adhesives via Catecholamine Functionalization

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• 作者：Julieta I. Paez ; Oya Ustah眉seyin ; Cristina Serrano ; Xuan-Anh Ton ; Zahid Shafiq ; G眉nter K. Auernhammer ; Marco d鈥橧schia ; Ar谩nzazu del Campo
• 刊名：Biomacromolecules
• 出版年：2015
• 出版时间：December 14, 2015
• 年：2015
• 卷：16
• 期：12
• 页码：3811-3818
• 全文大小：480K
• ISSN：1526-4602

文摘

The curing time of an adhesive material is determined by the polymerization and cross-linking kinetics of the adhesive formulation and needs to be optimized for the particular application. Here, we explore the possibility of tuning the polymerization kinetics and final mechanical properties of tissue-adhesive PEG gels formed by polymerization of end-functionalized star-PEGs with catecholamines with varying substituents. We show strong differences in cross-linking time and cohesiveness of the final gels among the catecholamine-PEG variants. Installation of an electron-withdrawing but 蟺-electron donating chloro substituent on the catechol ring resulted in faster and more efficient cross-linking, while opposite effects were observed with the strongly electron-withdrawing nitro group. Chain substitution slowed down the kinetics and hindered cross-linking due either to chain breakdown (尾-OH group, in norepinephrine) or intramolecular cyclization (伪-carboxyl group, in DOPA). Interesting perspectives derive from use of mixtures of catecholamine-PEG precursors offering further opportunities for fine-tuning of the curing parameters. These are interesting properties for the application of catecholamine-PEG gels as tissue glues or biomaterials for cell encapsulation.