Magnesium(I) Reduction of Aluminum(III) Hydride Complexes: Generation of Mixed Valence Aluminum (AlI /Al0 ) Hydride Cluster Compounds, [Al6 H8 (NR3 )2 {Mg(β-diketiminate)}4 ]

Abstract

Reduction of a range of amido- and aryloxy-aluminum dihydride complexes, e.g. [AlH₂ (NR₃ ){N(SiMe₃ )₂ }] (NR₃ =NMe₃ or N-methylpiperidine (NMP)), with β-diketiminato dimagnesium(I) reagents, [{(^Ar Nacnac)Mg}₂ ] (^Ar Nacnac=[HC(MeCNAr)₂ ]^- , Ar=mesityl (Mes) or 2,6-xylyl (Xyl)), have afforded deep red mixed valence aluminum hydride cluster compounds, [Al₆ H₈ (NR₃ )₂ {Mg(^Ar Nacnac)}₄ ], which have an average Al oxidation state of +0.66, the lowest for any well-defined aluminum hydride compound. In the solid-state, the clusters are shown to have distorted octahedral Al₆ cores, having zero-valent Al axial sites and mono-valent AlH₂ ^- equatorial units. Several novel by-products were isolated from the reactions that gave the clusters, including the Mg-Al bonded magnesio-aluminate complexes, [(^Ar Nacnac)(Me₃ N)Mg-Al(μ-H)₃ [{Mg(^Ar Nacnac)}₂ (μ-H)]]. Computational analyses of one aluminum hydride cluster revealed its Al₆ core to be electronically delocalized, and to possess one unoccupied, and six occupied, skeletal molecular orbitals.

Keywords: Aluminum; Cluster; Hydride; Magnesium(I); Sub-Valent.