Kim Khidong, Strong Jacobo, Sarkar Stephen Don, Nguyen Dung, Dau Huong, Al-Aman D A Anwar, Dadashi-Silab Sajjad, Harth Eva, Matyjaszewski Krzysztof
Department of Chemistry, Carnegie Mellon University, Pittsburgh, Pennsylvania 15213, United States.
Department of Chemistry, Center of Excellence in Polymer Chemistry (CEPC), University of Houston, Houston, Texas 77204, United States.
Macromolecules. 2025 Jan 30;58(3):1337-1348. doi: 10.1021/acs.macromol.4c02684. eCollection 2025 Feb 11.
Accessing a facile pathway to prepare polyolefin-polar block copolymers with low dispersity and high control remains a challenge due to the distinct polymerization pathways of the composing blocks. This study utilized the polyolefin active ester exchange, the PACE approach, as a viable solution. The PACE approach, using palladium-catalyst-based coordination-insertion polymerization, was combined with SARA ATRP (supplemental activator/reducing agent atom transfer radical polymerization). A single-chain-end active ester functionalized polyethylene (PE) was produced from an α-diimine Pd(II) hexafluoroisopropyl ester chelate complex, which facilitated a living polymerization of ethylene. Transesterification with 2-hydroxyethyl α-bromoisobutyrate (HOBIB) or 2-hydroxyethyl α-bromoisobutyramide (HOBIBA) formed α-bromoisobutyrate or α-bromoisobutyramide chain-end-functionalized polyethylene. The approach resulted in controlled synthesis of polymers with low dispersity (), high initiation efficiency, and high reproducibility. Both the amide-linked and ester-linked macroinitiators showed >90% initiation efficiency and values of block copolymers as low as 1.05. This work demonstrated a successful combination of two living polymerization techniques, an insertion and controlled radical polymerization, unified in PACE-SARA ATRP, offering access to polyolefin-containing block copolymers with chemically distinct structures.
由于组成嵌段的聚合途径不同,获得一种简便的方法来制备低分散度且可控性高的聚烯烃-极性嵌段共聚物仍然是一项挑战。本研究采用聚烯烃活性酯交换法(PACE法)作为一种可行的解决方案。PACE法采用基于钯催化剂的配位插入聚合,与SARA ATRP(补充活化剂/还原剂原子转移自由基聚合)相结合。由α-二亚胺钯(II)六氟异丙酯螯合物制备了单链端活性酯官能化聚乙烯(PE),这促进了乙烯的活性聚合。与2-羟乙基α-溴异丁酸酯(HOBIB)或2-羟乙基α-溴异丁酰胺(HOBIBA)进行酯交换反应,形成了α-溴异丁酸酯或α-溴异丁酰胺链端官能化聚乙烯。该方法实现了低分散度聚合物的可控合成()、高引发效率和高重现性。酰胺连接和酯连接的大分子引发剂均显示出>90%的引发效率,嵌段共聚物的分散度低至1.05。这项工作证明了两种活性聚合技术(插入聚合和可控自由基聚合)在PACE-SARA ATRP中的成功结合,为制备具有化学结构不同的含聚烯烃嵌段共聚物提供了途径。
