Rapid conversion of CO 2 and propylene oxide into propylene carbonate over acetic acid/KI under relatively mild conditions

The coupling of CO 2 and epoxides to form cyclic carbonates has been industrialized since the 1960s. The employment of an efficient and low-cost catalyst is one of the decisive factors to improve the production efficiency. Many catalysts with high activities have been developed; however, those that...

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Bibliographic Details
Published in:New journal of chemistry 2021-11, Vol.45 (43), p.20323-20328
Main Authors: Wang, Yajun, Shen, Yehua, Wang, Zheng
Format: Article
Language:English
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Summary:The coupling of CO 2 and epoxides to form cyclic carbonates has been industrialized since the 1960s. The employment of an efficient and low-cost catalyst is one of the decisive factors to improve the production efficiency. Many catalysts with high activities have been developed; however, those that can convert CO 2 and epoxides into cyclic carbonates in a short time or with high efficiency are still less reported. In this study, we developed such an efficient and low-cost catalytic system of hydrogen bond donor acetic acid (AA) in combination with KI (denoted as AA/KI) for the rapid conversion of CO 2 and propylene oxide (PO). The optimal reaction condition for AA/KI catalyzing the coupling of CO 2 and PO is screened by trial and error. Atime-dependent PO conversion study showed that the AA/KI catalytic system displays quite high activity to completely convert PO within a short time of 15 min under optimized conditions (0.9 MPa CO 2 and 90 °C) for the best case. Moreover, AA/KI is also active for the coupling of other epoxides with CO 2 , and the reaction efficiency is significantly influenced by the electronic and steric effects of the epoxide substrates. In addition, the plausible mechanism was deduced. Herein, we provide an efficient and relatively mild route to catalyze the coupling of CO 2 and epoxide within a short time using a non-toxic, cheap and facile catalyst.
ISSN:1144-0546
1369-9261
DOI:10.1039/D1NJ04387K