With the background that β-diketiminato zinc complexes efficiently catalyze the CO 2 /epoxide copolymerization via a mechanism involving two catalyst molecules, a ligand system containing two parallel β-diiminato binding sites linked by a xanthene backbone ([ R Xanthdim] 2with residues R ) 2,3-dimethylphenyl and 2,4-difluorophenyl at the iminato units, respectively) was investigated with respect to its zinc coordination chemistry. The corresponding diimines [ R Xanthdim]H 2 were treated with diethylzinc to yield the complexes [ Me2C6H3 Xanthdim](ZnEt) 2 , 4, and [ F2C6H3 Xanthdim](ZnEt(thf)) 2 , 5, respectively. In order to convert these compounds into polymerization catalysts, they were subsequently treated with SO 2 , which indeed resulted in the corresponding ethylsulfinates. Due to aggregation via intermolecular bridging of ethylsulfinate ligands, the product after the reaction of 5 represents an insoluble coordination polymer. Aggregation does take place also for the primary product obtained from the reaction of 4, as evidenced by the isolation of the tetramer [{[ Me2C6H3 Xanthdim]Zn 2 (µ-O 2 SEt)}µ-O 2 SEt] 4 , 6, and the precipitation of an insoluble solid on storing of such mixtures. 4, 5, and 6 display moderate activities as catalysts for the copolymerization of cyclohexene oxide and CO 2 . A bimodal molecular weight distribution points to two effective mechanisms, one of which probably involves two cooperating Zn centers as anticipated. Possible structural reasons for these catalytic results are discussed.
(2), and [(C 5 Me 5 )(BDI Ph )Y{N(SiHMe 2 ) 2 }] (4) are available via amine elimination starting from (BDI Ph )H and either [Y{N(SiHMe 2 ) 2 } 3 (THF) 2 ] or [(C 5 Me 5 )Y{N(SiHMe 2 ) 2 } 2 (THF)] (3). X-ray crystallographic analysis of complexes 1 and 4 revealed a η 5 coordination mode for the β-diketiminato ligand, whereas the distorted octahedral complex 2 displayed pure κ 2 coordination. Complex 3 was also structurally characterized. 1, 3, and 4 are mo-
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