级联炔烃复分解聚合法制备可降解缩醛聚合物的模块化方法。
Modular Approach to Degradable Acetal Polymers Using Cascade Enyne Metathesis Polymerization.
机构信息
School of Chemistry and Biochemistry, Georgia Institute of Technology, 901 Atlantic Drive NW, Atlanta, GA, 30332, USA.
出版信息
Angew Chem Int Ed Engl. 2019 Oct 28;58(44):15726-15730. doi: 10.1002/anie.201909172. Epub 2019 Sep 19.
Abstract
A modular synthetic approach to degradable metathesis polymers is presented using acetal-containing enyne monomers. The monomers are prepared in a short and divergent synthetic sequence that features two points of modification to tune polymerization behavior and introduce molecular cargo. Steric and stereochemical elements are critical in the monomer design in order to provide rapid and living polymerizations capable of generating block polymers. The developed polyacetal materials readily undergo pH-dependent degradation in aqueous mixtures, and the rate of hydrolysis can be tuned through post-polymerization modification with triazolinedione click chemistry. This presents a new scaffold for responsive metathesis polymers that may find use in applications that requires controllable breakdown and release of small molecules.
摘要
提出了一种使用含有缩醛的烯炔单体的可降解易位聚合物的模块化合成方法。单体通过一个短的、发散的合成序列制备,该序列具有两个修饰点,用于调节聚合行为和引入分子负载。单体设计中需要考虑立体和立体化学因素,以提供能够生成嵌段聚合物的快速和活聚。所开发的聚缩醛材料在水混合物中容易发生 pH 依赖性降解,并且通过三唑啉二酮点击化学进行后聚合修饰可以调节水解速率。这为响应性易位聚合物提供了一个新的支架,它可能在需要小分子可控分解和释放的应用中找到用途。
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