Ring-Opening Polymerization of L-lactide Initiated by Samarium(III) Acetate

Current Applied Polymer Science Pub Date : 2019-07-31 DOI:10.2174/2452271602666181114094536

J. C. Ramírez, Dimas Medina, F. López-Carrasquero, R. Contreras

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引用次数: 4

Abstract

The synthesis of the aliphatic polyesters obtained by the ring opening polymerization has been achieved using as initiators a large amount of organometallic compounds derivative from: Alkali metals, alkaline earth metals, transition metals and lanthanide metals. Of all these compounds, the lanthanide derivatives have acquired great importance in the synthesis of aliphatic polyesters, since these show a greater catalytic activity and also can provide polymer with characteristics that will be very useful in the design of biomaterials. It was proposed the synthesis of poly(L-lactida) (PL-LA) through a ring opening polymerization process of L-lactide initiated with samarium(III) acetate (Sm(OAc)3) under solvent-free melt conditions. The influence of different parameters of reaction, such as temperature, time, molar ratio monomer to initiator, on typical variables of polymers, e.g., conversion, dispersity, and molar mass, were analyzed. All polymerizations were carried out under solvent-free melt conditions in ampoules-like flasks, equipped with a magnetic stirrer. The obtained polyesters were characterized by size exclusion chromatography (SEC) and 1H-NMR. The Sm(OAc)3 induces the polymerization of L-LA at high conversion, and produce polyesters with number-average molecular weights of 1.00 x 103 to 30.00 x 103 Dalton. The 1H-NMR analysis indicates a typical polymerization mechanism of coordination-insertion, with a breakdown of the acyl-oxygen bond of the L-LA. Sm(OAc)3 was an effective initiator for the ring-opening polymerization of L-LA. SEC chromatography showed that, at high temperatures and prolonged reaction times, the molar mass of the polyester decreases, which is associated with the transesterification collateral reactions that occur during the polymerization process.

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醋酸钐引发l -丙交酯开环聚合的研究

利用大量碱金属、碱土金属、过渡金属和镧系金属等衍生的有机金属化合物作为引发剂，实现了开环聚合法制备脂肪族聚酯。在所有这些化合物中，镧系衍生物在脂肪族聚酯的合成中具有重要意义，因为它们表现出更大的催化活性，并且可以为聚合物提供在生物材料设计中非常有用的特性。提出了在无溶剂熔融条件下，用醋酸钐(Sm(OAc)3)引发l -丙交酯开环聚合法制备聚l -丙交酯(PL-LA)。分析了不同反应参数(温度、时间、摩尔单体与引发剂的摩尔比)对聚合物转化率、分散性、摩尔质量等典型指标的影响。所有的聚合都是在无溶剂熔体条件下在装有磁力搅拌器的安瓿状烧瓶中进行的。所得聚酯通过粒径排除色谱(SEC)和1H-NMR进行了表征。Sm(OAc)3在高转化率下诱导L-LA聚合，制得数平均分子量为1.00 × 103 ~ 30.00 × 103道尔顿的聚酯。1H-NMR分析表明，L-LA具有典型的配位-插入聚合机制，并破坏了L-LA的酰基-氧键，sm (OAc)3是L-LA开环聚合的有效引发剂。SECchromatography表明，在高温和延长反应时间下，聚酯的摩尔质量减少，这与聚合过程中发生的酯交换副反应有关。

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Current Applied Polymer Science

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