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

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

2024Precision Chemistry14 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide 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 2 ) 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 6 g mol –1 h –1 ) 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 1 H/ 13 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.

Topics & Concepts

Steric effectsPolymerizationEthyleneMacroPolymer chemistryElectronic effectMaterials scienceChemistryPhotochemistryCatalysisOrganic chemistryComputer sciencePolymerProgramming languageOrganometallic Complex Synthesis and CatalysisCarbon dioxide utilization in catalysisCatalytic Alkyne Reactions