Molecular Design of Single-Site Metal Alkoxide Catalyst Precursors for Ring-Opening Polymerization Reactions Leading to Polyoxygenates. 1. Polylactide Formation by Achiral and Chiral Magnesium and Zinc Alkoxides, (η3-L)MOR, Where L = Trispyrazolyl- and Trisindazolylborate Ligands
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Abstract
Single-site achiral and chiral C3-symmetric complexes LMOR, where M = Mg and Zn, L = an η3-trispyrazolyl- or η3-trisindazolyl-borate ligand and R = Et, tBu, Ph, or SiMe3, have been synthesized and employed in the ring-opening polymerization of l-, rac-, and meso-lactide in CH2Cl2 at 25 °C and below. The polymerization occurs by acyl cleavage and gives rise to polylactide, PLA, with PDI of 1.1−1.25 up to 90% conversion. Studies of the kinetics of polymerization reveal first order behavior in both lactide and metal catalyst. For L = tris(3-tert-butylpyrazolyl)borate, (tBupz)3BH, polymerization of ∼500 equiv of l-lactide proceeds to 90% conversion within 1 h and 6 d for the magnesium and zinc catalysts, respectively. The zinc complexes are, however, more tolerant to air and moisture and solid samples where R = SiMe3 are persistent in air for several days. The rate of polymerization is also significantly influenced by the nature of the η3-L spectator ligand. Chiral C3-symmetric catalysts, where L = tris(indazolyl)borates derived from camphor and menthone, show only slight enantioselectivity in their polymerization of rac-lactide but do show significant diastereoselectivity in their ability to preferentially polymerize meso-lactide from a mixture of rac- and meso-lactide. The poly(mesolactide) shows a modest preference for syndiotactic junctions, RSRSRS. The molecular structures, deduced from single-crystal X-ray crystallography, are reported for η3-HB(3-Phpz)3MgEt(THF), [η3-HB((7R)-iPr-(4R)-Me-4,5,6,7-tetrahydro-2H-indazolyl)3]ZnMe and [η3-HB(3-tBupz)(3,5-(CF3)2pz)2]ZnOSiMe3 and serve as structural models for activated and ground-state configurations of the metal ions during the polymerization reaction. The molecular structure of meso-lactide is also reported. These results are compared with polymerizations of lactide by other coordinate catalysts.
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