Bi-Dentate Pyridyl Alkoxide Complexes of Aluminium and Vanadium: Synthesis, Structure and ROP Capability

The reaction of the pyridylalcohol Ph2C(OH)CH2-2-py-6-Me (IH) with Me3Al in refluxing toluene led to the isolation of the dimer AlMe2(μ-OC(Me)Ph2)2 (1), whilst at ambient temperature the complex (I)AlMe2·MeCN (2·MeCN) was isolated. Complex 1 is also readily available via the interaction of diphenylethanol and Me3Al. Similar treatment of iPr2C(OH)CH2-2-py-6-Me (IIH) at ambient temperature afforded (II)AlMe2 (3). Treatment of IH and IIH with VO(OiPr)3 led to oxo-bridged complexes of the type (VO)(μ2-O)(I/II)2 (I (4·0.67MeCN), II (5)). The molecular structures of 1–5 are reported. These complexes have been employed as catalysts for the ring-opening polymerization (ROP) of the cyclic esters ε-caprolactone (ε-CL) and δ-valerolactone (δ-VL). For aluminium, complex 1/BnOH produced medium- to high-molecular-weight (Mn) PCL at 20 to 110 °C in solution, though some bi-/multi-modal behaviour was observed; for melts the Mn values were toward the lower end. For complexes 2 and 3, far lower Mn values for PCL were observed at 20 °C in solution and as melts, whilst in solution at 110 °C higher Mn values were achieved, though with less control. In general, Mn values for the PCL obtained using the vanadium complexes were low (≤8560 Da for 4, ≤2920 Da for 5). In the case of PVL, 1/BnOH in solution exhibited higher Mn values at lower temperatures with good control, and when employed as a melt, the Mn was toward the higher end (30,830 Da) observed. For 2/BnOH, much lower Mn values (≤2740 Da) were recorded both in solution and as a melt, whilst for 3, high Mn values were only observed in the absence of BnOH. Low Mn values (≤2920 Da) were also observed for the vanadium complexes 4 and 5. Kinetic results (both ε-CL and δ-VL) revealed that the vanadium complexes, particularly 4, outperformed the aluminium complexes. MALDI-ToF spectra revealed the formation of linear PCL polymers with BnO/H end groups for the aluminium/BnOH complexes in solution, and cyclic polymers when employed as melts. For vanadium, cyclic PCL polymers were the major family present. In the case of PVL, linear (BnO/H end groups) and cyclic polymers were observed when employing the Al/BnOH systems, whilst cyclic polymers were observed for vanadium. Copolymerization of ε-CL and δ-VL using 4/BnOH at 110 °C over 24 h led to incomplete conversion and formation of a random-type copolymer.