Salt metathesis versus protonolysis routes for the synthesis of silylamide Hauser base (R2NMgX; X = halogen) and amido-Grignard (R2NMgR) complexes

Abstract

The preparation of silylamide Hauser base (R₂NMgX; X = halide) and amido-Grignard (R₂NMgR) complexes from simple Grignard reagents using [K{N(SiMe₂^tBu)₂}]_n, [K{N(SiMe₂^tBu)(SiⁱPr₃)}]_n and [K{N(SiⁱPr₃)₂}]_n, and their parent silylamines, was explored. Both salt metathesis and protonolysis routes proved ineffective with allylmagnesium chloride as a starting material due to complex Schlenk equilibria, with [Mg(N^RR′)(μ-Cl)(THF)]₂ (N^RR′ = {N(Si^tBuMe₂)₂}⁻, 1; {N(Si^tBuMe₂)(SiⁱPr₃)}⁻, 2; {N(SiⁱPr₃)₂}⁻, 3) and [Mg{N(SiⁱPr₃)₂}(μ-C₃H₅)]_∞ (4) identified as minor products. In contrast, salt metathesis protocols using potassium silylamides and methylmagnesium iodide gave [Mg(N^RR′)(μ-CH₃)]₂ (N^RR′ = {N(Si^tBuMe₂)₂}⁻, 7a; {N(Si^tBuMe₂)(SiⁱPr₃)}⁻, 8; {N(SiⁱPr₃)₂}⁻, 9) and [Mg{N(Si^tBuMe₂)₂}(CH₃)(DME)] (7b), with [Mg{N(Si^tBuMe₂)₂}(μ-I)(THF)]₂ (10) isolated as a side-product during the preparation of 7a. Unusually, methylmagnesium iodide, di-n-butylmagnesium and 7–9 did not react with HN^RR′ under the conditions we employed. The synthesis of [Na{N(Si^tBuMe₂)₂}(THF)]₂ (5a) and [Na{N(Si^tBuMe₂)₂}(DME)₂] (5b) from benzyl sodium and HN(Si^tBuMe₂)₂, and a solvent-free structure of [K{N(Si^tBuMe₂)₂}] (6), are also reported. Complexes 1, 5b, 7a, 7b, 8, 9 and 10 are fully characterised by single crystal XRD, multinuclear NMR and IR spectroscopy and elemental analysis, whereas complexes 2–4, 5a and 6 were identified by XRD only.