Ammonium zincates as suitable catalyst for the room temperature cycloaddition of CO2 to epoxides

Frontiers in catalysis Pub Date : 2022-08-30 DOI:10.3389/fctls.2022.991270

Nicola Panza, M. Alberti, C. Damiano, A. Caselli

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引用次数: 1

Abstract

We have recently shown that simple ammonium ferrates are competent catalyst for the cycloaddition reaction of CO2 to epoxides under moderate reaction conditions (T = 100°C, P(CO2) = 0.8 MPa). We report here that ammonium zincates of general formulae [TBA]2 [ZnX4] (TBA = tetrabutylammonium), simply obtained by treating an ethanolic solution of an appropriate zinc(II) salt with two equivalents of tetrabutylammonium halides, outperform ammonium ferrates in the synthesis of cyclic carbonates under milder reaction conditions (room temperature and atmospheric CO2 pressure). Using [TBA] 2 [ZnBr 4 ] complex as homogeneous catalyst at 100°C and P(CO2) = 0.8 MPa a 52% conversion of styrene oxide with complete selectivity in styrene carbonate in just 15 min was observed, corresponding to a Turnover frequency (TOF) of 416 h−1. The same catalyst proved to be very active even at room temperature and atmospheric or very moderate CO2 pressures (0.2 MPa), with a quite broad range of substrates, especially in the case of terminal epoxides, with high selectivity towards cyclic carbonate products. The difference in reactivity of terminal and internal epoxides could be exploited using 4-vinylcyclohexene dioxide, where the endocyclic epoxide remained untouched when reacted at room temperature and the formation of the di-carbonate product was observed only at harsher conditions. A multigram scale conversion of propylene oxide was achieved (46 mmol) and the catalyst also proved to be recyclable (3 cycles) by distillation of the product and subsequent addition of fresh reagent, maintaining high conversion values and complete selectivity for propylene carbonate. This simple zinc-based catalytic system, which outperform the recently reported iron-based one by working at much milder conditions, could represent a valuable prospect in both laboratory and industrial scale, combining an inherent cheapness and synthetic easiness that should be deeply considered when the goal is to give value to a waste product as CO2.

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锌酸铵作为环氧化物室温环加成反应的适宜催化剂

我们最近已经证明，在中等反应条件下（T=100°C，P（CO2）=0.8MPa），简单的高铁酸铵是CO2与环氧化物环加成反应的有效催化剂。我们在此报道，通过用两当量的四丁基卤化铵处理合适的锌（II）盐的乙醇溶液简单获得的通式[TBA]2[ZnX4]（TBA=四丁基铵）的锌酸铵在较温和的反应条件（室温和大气CO2压力）下合成环状碳酸酯方面优于高铁酸铵。使用[TBA]2[ZnBr4]络合物作为均相催化剂，在100°C和P（CO2）=0.8 MPa下，在碳酸苯乙烯中观察到52%的氧化苯乙烯转化率和完全选择性，对应于416 h−1的转换频率（TOF）。事实证明，即使在室温和大气压或非常中等的CO2压力（0.2MPa）下，相同的催化剂也非常活性，具有相当宽的底物范围，特别是在末端环氧化物的情况下，对环状碳酸酯产物具有高选择性。末端环氧化物和内部环氧化物反应性的差异可以使用4-乙烯基二氧化环己烯来利用，其中内环环氧化物在室温下反应时保持不变，并且只有在更苛刻的条件下才能观察到二碳酸酯产物的形成。氧化丙烯实现了多级转化（46毫摩尔），并且通过蒸馏产物和随后加入新鲜试剂，催化剂也被证明是可回收的（3个循环），保持了高转化值和对碳酸亚丙酯的完全选择性。这种简单的锌基催化系统在温和得多的条件下工作，优于最近报道的铁基催化系统，在实验室和工业规模上都有着宝贵的前景，它结合了固有的廉价性和合成的容易性，当目标是使废物以二氧化碳的形式产生价值时，应该深入考虑这一点。

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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Frontiers in catalysis

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