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W2085631345 endingPage "2079" @default.
W2085631345 startingPage "2069" @default.
W2085631345 abstract "The detailed mechanism of the experimentally observed formation of five-membered cyclic carbonates in the coupling reaction between chloromethyloxirane and CO2 catalyzed by the Re(CO)5Br complex is revealed by means of density functional theory (DFT) calculations. All possible pathways are examined, and their corresponding energetics are demonstrated. Our calculations indicate that the real active catalyst is the unsaturated complex Re(CO)4Br rather than free radical species (Re(CO)5 or Br radicals). The preferred mechanism (path I) for the catalytic production of cyclic carbonates can be divided into three main stages involving epoxide oxidative addition, carbon dioxide insertion, and reductive elimination of cyclic carbonate, none of which contains significantly large barriers. Our results provide support for Jiang’s proposal that the reaction proceeds through the reactive oxametallacyclobutane 2b. Furthermore, we have found CO dissociation from 2b is an essential step, which facilitates CO2 coordination and insertion leading to metallacarbonate 6. The whole CO2 insertion is predicted to be an endergonic process. From the unstable metallacyclic species 6, the cyclic carbonate reductive elimination occurs via a three-center transition-state structure. Reductive elimination is a very facile step as compared with epoxide oxidative addition and carbon dioxide insertion. As for the ring-opening of epoxide, the activation energy barrier from 1d to 2b is 36.2 kcal/mol in supercritical CO2, which is slightly higher, by 2.2 kcal/mol, than that of the CO2 multistep insertion (2b → 6). Thus, each of them can be the rate-determining step with variation in the reaction conditions (temperature and pressure). The high-energy barriers along the alternative reaction pathway indicate path II is not competitive. Our present theoretical study provides a clear profile for the cycloaddition of carbon dioxide with chloromethyloxirane catalyzed by Re(CO)5Br." @default.
W2085631345 created "2016-06-24" @default.
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W2085631345 date "2010-04-06" @default.
W2085631345 modified "2023-10-03" @default.
W2085631345 title "A DFT Study on the Mechanism of the Coupling Reaction between Chloromethyloxirane and Carbon Dioxide Catalyzed by Re(CO)<sub>5</sub>Br" @default.
W2085631345 cites W1966182479 @default.
W2085631345 cites W1967198195 @default.
W2085631345 cites W1974559537 @default.
W2085631345 cites W1984614201 @default.
W2085631345 cites W1990171982 @default.
W2085631345 cites W1994143164 @default.
W2085631345 cites W1998097452 @default.
W2085631345 cites W2001766927 @default.
W2085631345 cites W2003554875 @default.
W2085631345 cites W2014767176 @default.
W2085631345 cites W2016415968 @default.
W2085631345 cites W2018166191 @default.
W2085631345 cites W2020527778 @default.
W2085631345 cites W2022328210 @default.
W2085631345 cites W2023271753 @default.
W2085631345 cites W2025032776 @default.
W2085631345 cites W2027316206 @default.
W2085631345 cites W2033990154 @default.
W2085631345 cites W2034265437 @default.
W2085631345 cites W2038767330 @default.
W2085631345 cites W2044420428 @default.
W2085631345 cites W2044490585 @default.
W2085631345 cites W2045128514 @default.
W2085631345 cites W2045277089 @default.
W2085631345 cites W2048993255 @default.
W2085631345 cites W2049203091 @default.
W2085631345 cites W2052674983 @default.
W2085631345 cites W2053540692 @default.
W2085631345 cites W2053920582 @default.
W2085631345 cites W2055077841 @default.
W2085631345 cites W2059532603 @default.
W2085631345 cites W2060103472 @default.
W2085631345 cites W2063254039 @default.
W2085631345 cites W2064574760 @default.
W2085631345 cites W2065372630 @default.
W2085631345 cites W2067317806 @default.
W2085631345 cites W2069647250 @default.
W2085631345 cites W2070300155 @default.
W2085631345 cites W2071543015 @default.
W2085631345 cites W2079282984 @default.
W2085631345 cites W2079458939 @default.
W2085631345 cites W2095474273 @default.
W2085631345 cites W2104757662 @default.
W2085631345 cites W2106686634 @default.
W2085631345 cites W2108812250 @default.
W2085631345 cites W2125412342 @default.
W2085631345 cites W2126447293 @default.
W2085631345 cites W2143981217 @default.
W2085631345 cites W2148284063 @default.
W2085631345 cites W2151016427 @default.
W2085631345 cites W2163160895 @default.
W2085631345 cites W2169655552 @default.
W2085631345 cites W2176610945 @default.
W2085631345 cites W2951371648 @default.
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W2085631345 cites W4211101698 @default.
W2085631345 cites W4247019030 @default.
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W2085631345 doi "https://doi.org/10.1021/om100020s" @default.
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