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W2710986209 abstract "A series of salphen complexes based on Cr, Co and Fe was synthesized and used as catalysts in ring-opening copolymerization of different substrates: (i) epoxides with carbon monoxide (CO), (ii) epoxides with anhydrides and (iii) epoxides with carbon dioxide (CO2). Additionally, a screening of catalytic activity for the last substrate was performed with novel Zn, Al and Mg non-salen based complexes.The first part of the Thesis deals with the copolymerization of propylene oxide with carbon monoxide using asymmetric salphen chromium complex and Co2(CO)8 in order to prepare a synthetic equivalent of polyhydroxybutyrate (PHB) otherwise accessible by fermentation of various substrates. Very poor catalytic performances towards carbonylated products (PHB or β-butyrolactone (BBL)) were observed with any of the two complexes. The combination of both salphen chromium and Co2(CO)8 complexes led to increased formation of BBL. Low molar mass poly(ester-co-ether) was only prepared, suggesting a poor compatibility of selected complexes.The second part of the work is focused on the copolymerization of epoxides with anhydrides catalyzed by salphen chromium or iron complexes combined with simple organic bases as cocatalysts. Salphen complexes alone were almost inactive, while in the presence of bis(triphenylphosphineiminium)chloride (PPNCl) they afforded highly alternating polyesters with molar mass up to 10 kg.mol-1 and low dispersity. Surprisingly, organic bases alone afforded similar, highly alternating polyesters at five-time lower polymerization rate. PPNCl was found to be an effective catalyst for the highly alternating copolymerization of various epoxides and anhydrides.The last part of our investigations refers to the copolymerization of epoxides with CO2 using salphen chromium and especially salphen cobalt complexes. Cobalt catalysts were significantly more active in propylene oxide (PO)/CO2 and cyclohexene oxide (CHO)/CO2 copolymerization compared to their chromium analogues. Highly alternating polycarbonates (> 99%) with low dispersity and molar mass 10-35 kg.mol-1 were prepared by salphen cobalt complexes. Kinetic studies showed that these polymerizations are controlled and MALDI-TOF MS analysis was used for initiation mechanism clarification. Compared to widely investigated salen Co catalysts, salphen Co complexes exhibit lower activity (100-450 h-1) and selectivity to polymer (40-90%) in propylene oxide/CO2 copolymerization, while 100% selectivity to polycarbonate was achieved in the copolymerization of CHO and CO2. Alternatively, new Al, Zn and Mg-based catalysts were tested for CO2 activation, however, they usually led only to epoxide homopolymerization." @default.
W2710986209 created "2017-06-30" @default.
W2710986209 creator A5085655903 @default.
W2710986209 date "2016-02-05" @default.
W2710986209 modified "2023-10-17" @default.
W2710986209 title "Catalytic conversion of carbon oxides to new polymeric materials" @default.
W2710986209 hasPublicationYear "2016" @default.
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