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通过具有空间和电子参数的精确调谐双(亚氨基)吡啶钴预催化剂在乙烯聚合中实现线性α-烯烃

Achieving Linear α-Macro-olefins in Ethylene Polymerization through Precisely Tuned Bis(imino)pyridylcobalt Precatalysts with Steric and Electronic Parameters.

作者信息

Fatima Tahir Kainat, Ma Yanping, Mahmood Qaiser, Ren Geng, Khalid Areej, Wang Yizhou, Zou Song, Liang Tongling, Sun Wen-Hua

机构信息

Key Laboratory of Engineering Plastics and Beijing National Laboratory for Molecular Science, Institute of Chemistry, Chinese Academy of Sciences, Beijing 100190, China.

Chemistry and Chemical Engineering Guangdong Laboratory, Shantou 515031, China.

出版信息

Precis Chem. 2024 Sep 26;2(12):655-668. doi: 10.1021/prechem.4c00067. eCollection 2024 Dec 23.

DOI:10.1021/prechem.4c00067
PMID:39734756
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11672542/
Abstract

Synthesis of functional polyethylene from ethylene alone is tricky and heavily dependent on both the type and structure of the precatalyst and the choice of cocatalyst used in the polymerization. In the present study, a series of cobalt precatalysts was prepared and investigated for ethylene polymerization under various conditions. By incorporation of strong electron-withdrawing groups (F and NO) and a steric component (benzhydryl) into the parent bis(imino)pyridine ligand, the catalytic performance of these precatalysts was optimized. On activation with MAO or MMAO, these precatalysts with relatively open structure achieved unprecedented ethylene polymerization rates at 60 °C (up to 27.6 × 10 g mol h) and remained effective at temperatures up to 100 °C. Chain growth reactions were moderate, resulting in polyethylene with molecular weights up to 61.0 kg/mol and broad bimodal dispersity index. High crystallinity and melt temperature indicated a strictly linear microstructure, as further confirmed by high-temperature H/C NMR measurements. Of significant note that chain termination predominantly occurred through β-elimination (up to 84.5%), yielding vinyl-terminated long-chain olefins. These functional α-macro-olefins are valuable as precursors for postfunctionalization, expanding the potential applications of polyethylene across various sectors.

摘要

仅由乙烯合成功能性聚乙烯是一项棘手的任务,并且严重依赖于预催化剂的类型和结构以及聚合反应中使用的助催化剂的选择。在本研究中,制备了一系列钴预催化剂,并在各种条件下对其进行乙烯聚合研究。通过将强吸电子基团(F和NO)和一个空间位阻成分(二苯甲基)引入母体双(亚氨基)吡啶配体中,优化了这些预催化剂的催化性能。在用MAO或MMAO活化后,这些具有相对开放结构的预催化剂在60°C时实现了前所未有的乙烯聚合速率(高达27.6×10 g mol h),并且在高达100°C的温度下仍保持有效。链增长反应适中,得到分子量高达61.0 kg/mol且具有宽双峰分散指数的聚乙烯。高结晶度和熔融温度表明其具有严格的线性微观结构,高温H/C NMR测量进一步证实了这一点。值得注意的是,链终止主要通过β-消除(高达84.5%)发生,生成乙烯基封端的长链烯烃。这些功能性α-大烯烃作为后官能化的前体很有价值,扩展了聚乙烯在各个领域的潜在应用。

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