Regulating basicity of porous poly(ionic liquid)s for CO2 fixation into dimethyl carbonate under mild condition

Sustainable Chemistry for Climate Action Pub Date : 2023-01-01 DOI:10.1016/j.scca.2023.100023

Fangpei Ma, Zhixin Song, Shu Dong, Zengjing Guo, Long Ma, Yu Zhou, Jun Wang

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引用次数: 1

Abstract

Direct carbon dioxide (CO₂) conversion into valuable chemicals like dimethyl carbonate (DMC) is an atom efficient avenue for CO₂ utilization but greatly challenges the catalyst designation because the requirement of multiple active sites. Herein, regulation of the basicity of porous poly(ionic liquid)s (PPILs) was reached by post-treating epoxy-functional precursor and utilizing 1,5,7-triazodicyclic [4.4.0] Dec-5-ene (TBD) to convert epoxy functional ionic moieties into the multifunctional sites with nucleophilic-leaving capable anions, hydroxyl group and TBD derived basic sites. The constructed catalyst was highly active in the one-pot and two-step DMC synthesis by coupling the CO₂ cycloaddition with epoxide and successive transesterification. A high yield up to 93% was observed by using atmospheric CO₂ under the metal-solvent-additive free condition. Stable reusability and extendibility by using multiple epoxides further reveal the efficiency and potentiality of the present catalyst in CO₂ fixation.

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在温和条件下调节多孔聚离子液体的碱度将CO2固定为碳酸二甲酯

二氧化碳（CO2）直接转化为有价值的化学物质，如碳酸二甲酯（DMC）是一种有效利用CO2的原子途径，但由于需要多个活性位点，因此对催化剂的设计提出了极大的挑战。本文通过对环氧官能前体进行后处理，并利用1,5,7-三氮双环[4.4.0]癸-5-烯（TBD）将环氧官能离子部分转化为具有亲核离去能力的阴离子、羟基和TBD衍生的碱性位点的多功能位点，来调节多孔聚离子液体（PPIL）的碱性。通过将CO2环加成与环氧化物和连续的酯交换反应偶联，所构建的催化剂在一锅和两步DMC合成中具有高活性。通过在不含金属溶剂添加剂的条件下使用大气CO2，观察到高达93%的高产率。通过使用多种环氧化物的稳定的可重复使用性和可扩展性进一步揭示了本催化剂在CO2固定方面的效率和潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Sustainable Chemistry for Climate Action

CiteScore

2.30

自引率

0.00%

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