Copolymerization of Epoxides and CO2 by Cobalt(II) Oxaporphyrins with Mechanistic Explorations on Poly(Propylene Carbonate) Formation

Two cobalt(II) oxaporphyrins (OTPPCoCl and OTPPCoSbF6) are synthesized in this work and are characterized, including by X‐ray crystallography. Both complexes are tested as catalysts in the copolymerization of propylene oxide (PO)/cyclohexene oxide (CHO) and CO2. Polycarbonate is obtained in CHO/CO2...

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Bibliographic Details
Published in:Macromolecular chemistry and physics 2018-03, Vol.219 (6), p.n/a
Main Authors: Xia, Wei, Sun, Xing‐Yu
Format: Article
Language:English
Subjects:
Alkoxides
Anion exchanging
Carbon dioxide
Carbonates
Catalysis
Catalysts
Cobalt
Copolymerization
Crystallography
Cyclohexene
Density functional theory
polycarbonates
Propylene
Propylene oxide
reaction mechanism
transition metal chemistry
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Summary:Two cobalt(II) oxaporphyrins (OTPPCoCl and OTPPCoSbF6) are synthesized in this work and are characterized, including by X‐ray crystallography. Both complexes are tested as catalysts in the copolymerization of propylene oxide (PO)/cyclohexene oxide (CHO) and CO2. Polycarbonate is obtained in CHO/CO2 copolymerization with OTPPCoCl as a catalyst, whereas in the case of PO, cyclic carbonate (CC) is majorly formed. An anion exchange from Cl− to SbF6 − of the cobalt(II) oxaporphyrin leads to a drastic change in the product selectivity: sole polyether is afforded for both epoxides. The polyether formation by OTPPCoSbF6 is postulated to proceed via a cationic mechanism. Further, an equivalent admixture of OTPPCoCl and OTPPCoSbF6 allows the formation of poly(propylene carbonate). In this copolymerization, the latter catalyst acts as a PO activator, while OTPPCoCl functions as the initiator. In addition, density functional theory (DFT) calculations reveal a lower ring‐opening energy of PO by OTPPCoSbF6, compared with the usual propagating species, OTPPCo‐alkoxides and OTPPCo‐carbonates. Cobalt(II) oxaporphyrins with different anions (Cl− and SbF6 −) catalyze PO/CO2 copolymerization to form distinct products. A mechanistic study on this phenomenon is carried out, in particular upon the polycarbonate formation with the admixture of both catalysts. In addition, cobalt(II) oxaporphyrin chloride is proven to be an efficient catalyst for poly(cyclohexene carbonate) formation.
ISSN:1022-1352
1521-3935
DOI:10.1002/macp.201700478