Huynh Tam Thi-Thanh, Kim Si Eun, Kim Soon Cheon, Kim Jin Chul, Park Young Il, Jeong Ji-Eun, Yeo Hyeonuk, Lee Sang-Ho
Center for Advanced Specialty Chemicals, Korea Research Institute of Chemical Technology Ulsan 44412 Republic of Korea.
Department of Science Education, Kyungpook National University Daegu 41566 Republic of Korea.
RSC Adv. 2021 Jul 28;11(42):26049-26055. doi: 10.1039/d1ra04595d. eCollection 2021 Jul 27.
A series of gradient copolymers were synthesized by the ruthenium-catalyzed living radical polymerization (LRP) of methyl acrylate (MA) and aliphatic alcohols using aluminum acetylacetonate Al(acac). In this polymerization system, Al(acac) was successfully used not only as an additive for the Ru-catalyzed LRP but also as a catalyst for the selective transesterification of an unsaturated ester monomer in mild conditions in a process known as concurrent tandem living radical polymerization. The resulting MA-based gradient copolymers showed well-controlled molecular weight and distribution in a one-pot reaction and exhibited a well-controlled gradient sequence in their polymer chain. Control of transesterification and the metal-catalyzed living radical polymerization (Mt-LRP) rate varied depending on the concentration of the Al(acac) and the structure of varying alcohols, which were confirmed by H NMR, SEC, and DSC analysis. In particular, this research opens a new synthetic methodology for preparing acrylate-based gradient copolymers concurrent tandem LRP not limited to the synthesis of methyl methacrylate types of gradient copolymers.
通过使用乙酰丙酮铝(Al(acac))对丙烯酸甲酯(MA)和脂肪醇进行钌催化的活性自由基聚合(LRP),合成了一系列梯度共聚物。在该聚合体系中,Al(acac)不仅成功用作钌催化LRP的添加剂,还在温和条件下作为不饱和酯单体选择性酯交换反应的催化剂,该过程称为并发串联活性自由基聚合。所得的基于MA的梯度共聚物在一锅法反应中显示出良好控制的分子量和分布,并且在其聚合物链中呈现出良好控制的梯度序列。酯交换反应和金属催化的活性自由基聚合(Mt-LRP)速率的控制取决于Al(acac)的浓度和不同醇的结构,这通过核磁共振氢谱(H NMR)、尺寸排阻色谱(SEC)和差示扫描量热法(DSC)分析得到证实。特别是,本研究为制备丙烯酸酯基梯度共聚物开辟了一种新的合成方法——并发串联LRP,而不仅限于甲基丙烯酸甲酯类梯度共聚物的合成。
