Mono- and di-phosphine oxide complexes of aluminium, gallium and indium with weakly coordinating triflate anions – Synthesis, structures and properties

Abstract

Reaction of the Group 13 triflates, M(OTf)₃ (M = Al, Ga, In; OTf = CF₃SO₃⁻), with 3 mol. eq. of R₃PO (R = Ph or Me) gives the six-coordinate complexes, [M(OTf)₃(R₃PO)₃], with coordinated triflate, as white powdered solids. Similarly, using 3 mol. eq. of PyNO (pyridine-N-oxide) readily forms [In(OTf)₃(PyNO)₃], whose crystal structure confirms a mer octahedral arrangement. In contrast, reaction of the harder Lewis acids Al(III) and Ga(III) with PyNO produce mixtures, mostly likely of the 3:1 and 4:1 species, [M(OTf)₃(PyNO)₃] and [M(OTf)₂(PyNO)₄][OTf] (M = Al, Ga). Both of the tetrakis species have been confirmed via single crystal X-ray studies and shown to exist as trans isomers. Higher ratios (4:1, 5:1 and 6:1) of Me₃PO coordinated to In(OTf)₃ can also be achieved by varying the reaction stoichiometry appropriately, with the coordinated OTf groups readily displaced by the Me₃PO. Crystal structures of two polymorphs of the salt, [In(OTf)₂(Me₃PO)₄][In{(OH₂)₂(OTf)₄}(Me₃PO)₄], in which the [In{(OH₂)₂(OTf)₄}(Me₃PO)₄]⁻ anion is (unusually) comprised of a ‘In^III(OH₂)₂(Me₃PO)₄′ unit with four OTf anions H-bonded to the aquo ligands, giving the overall monoanionic charge. A similar arrangement is present in [In(OTf)₂(Ph₃PO)₄][In{(OH₂)₄(OTf)₄}(Ph₃PO)₂], the structure of which shows that all of the H atoms associated with the four aquo ligands in the [In{(OH₂)₄(OTf)₄}(Ph₃PO)₂]⁻ form significant H-bonds to the OTf groups; specifically, the four OTf⁻ anions each show two O⋯H interactions, forming bridges that link the equatorial aquo ligands into a 24-membered ‘pseudo-macrocyclic’ ring. The crystal structure of the mononuclear 5:1 complex, [Ga(Me₃PO)₅(MeCN)][OTf]₃, is also described. Using the diphosphine dioxide, dppmO₂ (Ph₂P(O)CH₂P(O)Ph₂), with M(OTf)₃ in a 3:1 ratio readily affords the tris-chelate species, [M(dppmO₂)₃][OTf]₃ for all three metals, while a 2:1 ratio also gives [Ga(OTf)₂(dppmO₂)₂][OTf]. Crystal structures of both [Al(dppmO₂)₃][OTf]₃·MeCN and [Ga(dppmO₂)₃][OTf]₃·2CHCl₃ are reported. Multinuclear (¹H, ¹³C{¹H}, ¹⁹F{¹H}, ³¹P{¹H}, ²⁷Al, ⁷¹Ga and ¹¹⁵In, where appropriate) NMR data show that in CD₃CN the complexes are labile and the different R₃PO coordination environments are not distinguished (although exchange between coordinated and ‘free’ Me₃PO is slow on the ³¹P NMR timescale), while the MeCN solvent also replaces OTf in the metal coordination sphere.

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