Polymerizing Phostones: A Fast Way to In-Chain Poly(phosphonate)s with Adjustable Hydrophilicity

单体 膦酸盐 聚合 烷氧基 化学 高分子化学 水解 聚合物 烷基 侧链 动力学 开环聚合 有机化学 量子力学 物理
作者
Kristin Bauer,Lei Liu,Denis Andrienko,Manfred Wagner,Emily K. Macdonald,Michael P. Shaver,Frederik R. Wurm
出处
期刊:Macromolecules [American Chemical Society]
卷期号:51 (4): 1272-1279 被引量:30
标识
DOI:10.1021/acs.macromol.7b02473
摘要

Phostones, i.e., 2-alkoxy-2-oxo-1,3-oxaphospholanes, are accessible in a one-pot reaction from commercially available 1,3-dibromopropane and alkyl phosphites. These 5-membered cyclic phosphonic acid esters are used for the preparation of linear poly(phosphonate)s via ring-opening polymerization resulting in polymers with a hydrolytically stable P–C bond in the polymer backbone. Phostones have the stable P–C bond within the cycle, which leads to a dramatic increase of the monomer stability toward hydrolysis and long shelf-lives compared to other cyclic phosphoesters, which hydrolyze immediately at contact with water. Two phostone monomers containing ethoxy or butoxy pendant chains were prepared in a single-step synthesis from inexpensive starting materials avoiding the usage of SOCl 2 or POCl 3 . Polymers with ethoxy side chains are water-soluble without a lower critical solution temperature, nontoxic to murine macrophages, and hydrolytically degradable under basic conditions. The polymerization kinetics for different catalyst systems were evaluated for both monomers in order to identify optimal polymerization conditions, resulting in polyphosphonates with molecular weights between 3000 and 25 100 g/mol with reasonable molecular weight dispersities (<1.6). Because of the ease of synthesis and distinct different hydrolysis kinetics compared to side-chain polyphosphonates, we believe that these new polyphostones represent a valuable addition to water-soluble biopolymers for future biomedical applications.
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