Abstract
Ethylene oligomerization activities of chromium catalysts stabilized by different dipyrrole-based ancillary ligands, [(Ph 2 C(C 4 H 4 N) 2)] (2), [Ph 2 C(C 4 H 4 N)(C 5 H 6 N)] (3), [(Et) 2 C(C 4 H 4 N) 2 ] (4), and [(C 6 H 5)(C 5 H 4 N)C(C 4 H 4 N)(C 5 H 6 N)] (5), have been investigated using different activation methods, and the results have been compared with the commercial Chevron-Phillips ethylene trimerization system. Upon activation with triethylaluminum (TEA), chromium catalysts stabilized by dipyrrole-based ligands 2-5 showed a lower activity and selectivity compared to the Chevron-Phillips trimerization system based on 2,5-dimethylpyrrole (1) as the ancillary ligand. However, unprecedented increases in both activity and selectivity have been observed by carrying out the oligomerization in methylcyclohexane using depleted-methylaluminoxane (DMAO) along with triisobutylaluminum (TIBA) (1:2 ratio) as cocatalyst system under mild conditions, even for the Chevron-Phillips system itself. Well-defined chromium complexes, [(Ph 2 C(C 4 H 3 N) 2)Cr(Cl)(THF) 3 ] (6) and {[Ph 2 C(C 4 H 3 N)(C 5 H 6 N]Cr(THF)(μ-Cl)} 2 (7), have been synthesized and fully characterized. Upon activating with MAO, catalyst 7 produced a statistical distribution of oligomers, whereas under identical oligomerization conditions catalyst 6/MAO was found to be inactive. The use of MeAlCl 2 as cocatalyst to activate 7 resulted in the switching of the catalyst's behavior from producing a statistical distribution of LAOs to the selective trimerization of ethylene to 1-hexene. The addition of dialkylzinc along with MAO resulted in an unprecedented activity increase. (Figure Presented).
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CITATION STYLE
Kulangara, S. V., Haveman, D., Vidjayacoumar, B., Korobkov, I., Gambarotta, S., & Duchateau, R. (2015). Effect of Cocatalysts and Solvent on Selective Ethylene Oligomerization. Organometallics, 34(7), 1203–1210. https://doi.org/10.1021/om501013m
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