Cholinium Pyridinolate Ionic Pair-Catalyzed Fixation of CO<sub>2</sub> into Cyclic Carbonates
Tianyu Zhu, Yue Xu, Zhenjiang Li, Jun He, Xin Yuan, Dong Qian, Chang Tong, Longlin Lu, Bo Chi, Kai Guo
Abstract
A halide-free ionic pair organocatalyst was proposed for the cycloaddition of CO 2 into epoxide reactions. Cholinium pyridinolate ionic pairs with three different substitution positions were designed. Under conditions of temperature of 120 °C, pressure of 1 MPa CO 2, and catalyst loading of 5 mol %, the optimal catalyst cholinium 4-pyridinolate ([Ch] + [4-OP] − ) was employed. After a reaction time of 12 h, styrene oxide was successfully converted into the corresponding cyclic carbonate, and its selectivity was improved to 90%. A series of terminal epoxides were converted into cyclic carbonates within 12 h, with yields ranging from 80 to 99%. The proposed mechanism was verified by 1 H NMR and 13 C NMR titrations. Cholinium cations act as a hydrogen bond donor to activate epoxides, and pyridinolate anions combine with carbon dioxide to form intermediate carbonate anions that attack epoxides as nucleophiles and lead to ring opening. In summary, a halide-free ionic pair organocatalyst was designed and the catalytic mechanism in the cycloaddition of CO 2 into epoxides reactions was proposed.