异双核Co(III)Na(I)催化剂在环氧丙烯与二氧化碳开环共聚中的应用

IF 5.2 1区化学 Q1 POLYMER SCIENCE

Macromolecules Pub Date : 2025-07-04 DOI:10.1021/acs.macromol.5c01529

Frederica Butler, Francesca Fiorentini, Katharina H. S. Eisenhardt and Charlotte K. Williams*,

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引用次数: 0

摘要

环氧丙烯与二氧化碳开环共聚是制备聚碳酸酯的有效途径。具有高活性、高聚合物选择性、分子量控制和耐杂质性能的催化剂是罕见的。本文研究了四种Co(III)Na(I)催化剂对环氧丙烷与二氧化碳开环共聚的影响。配合物在配体结构上有系统的变化，其中Co（III）和Na(I)结合位点都被修饰。观察到催化剂性能的显著差异，铅催化剂具有六个供氧体和一个乙二胺连接体。该催化剂在高温（TOF = 1428 h-1，聚碳酸丙烯选择性= 98%,20 bar CO2, 70℃）下表现出优异的活性和高的聚碳酸丙烯选择性，优于Co(III)K(I)催化剂。这些结果为Co(III)Na(I)催化剂的最佳配位环境和操作条件提供了信息，并突出了在异双核催化剂中使用Na(I)相对于较重的s嵌段金属的好处。

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Heterodinuclear Co(III)Na(I) Catalysts for the Ring-Opening Copolymerization of Propene Oxide and Carbon Dioxide

The ring-opening copolymerization of propene oxide and carbon dioxide is an effective route to make polycarbonates. Catalysts showing high activities, high polymer selectivities, molecular weight control, and tolerance to impurities are rare. Here, a series of four Co(III)Na(I) catalysts are tested for the ring-opening copolymerization of propene oxide and carbon dioxide. The complexes have systematic variations in the ligand structure in which both Co(III) and Na(I) binding sites are modified. Significant differences in catalyst performance are observed, with the lead catalyst featuring six oxygen donors and an ethylene diamine linker. This catalyst shows excellent activity and high poly(propene carbonate) selectivity at elevated temperatures (TOF = 1428 h^–1, poly(propene carbonate) selectivity = 98%, 20 bar CO₂, 70 °C), outperforming analogous Co(III)K(I) catalysts. These results inform on the optimal coordination environment and operating conditions for the Co(III)Na(I) catalysts and highlight the benefits of using Na(I) relative to heavier s-block metals in the heterodinuclear catalysts.

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来源期刊

Macromolecules 工程技术-高分子科学

CiteScore

9.30

自引率

16.40%

发文量

942

审稿时长

2 months

期刊介绍： Macromolecules publishes original, fundamental, and impactful research on all aspects of polymer science. Topics of interest include synthesis (e.g., controlled polymerizations, polymerization catalysis, post polymerization modification, new monomer structures and polymer architectures, and polymerization mechanisms/kinetics analysis); phase behavior, thermodynamics, dynamic, and ordering/disordering phenomena (e.g., self-assembly, gelation, crystallization, solution/melt/solid-state characteristics); structure and properties (e.g., mechanical and rheological properties, surface/interfacial characteristics, electronic and transport properties); new state of the art characterization (e.g., spectroscopy, scattering, microscopy, rheology), simulation (e.g., Monte Carlo, molecular dynamics, multi-scale/coarse-grained modeling), and theoretical methods. Renewable/sustainable polymers, polymer networks, responsive polymers, electro-, magneto- and opto-active macromolecules, inorganic polymers, charge-transporting polymers (ion-containing, semiconducting, and conducting), nanostructured polymers, and polymer composites are also of interest. Typical papers published in Macromolecules showcase important and innovative concepts, experimental methods/observations, and theoretical/computational approaches that demonstrate a fundamental advance in the understanding of polymers.