Abstract
Triorganostibines and -bismuthines ER′3, as well as tetraorganodistibines and -dibismuthines E2R′4 (E = Sb, Bi) react with trialkylalanes, -gallanes and -indanes R3M (M = Al, Ga, In) under formation of simple Lewis acid-base adducts of the type R3M—ER3′ and bisadducts of the type [R3M]2[E2R′4]. Their structures and stabilities were investigated by single crystal X-ray diffraction, NMR spectroscopy and theoretical calculations. In addition, general pathways for the synthesis of heterocycles [R2MSbR2′]x will be presented. Stibinogallanes and -indanes can generally be prepared by dehalosilylation reactions, while stibinoalanes are formed by dehydrosilylation reactions. This particular pathway is also applicable for the synthesis of [Me2AlBi(Tms)2]3. In addition, MSb heterocycles (M = Al, Ga, In) can be synthesized by reaction of tetraorganodistibines and trialkylalanes, -gallanes and -indanes. Monomeric compounds R2MER′2 and RMER′ (M = Al, Ga; E = Sb, Bi) have not been reported to date, but Lewis base-stabilized monomers of the type base—M(R2)ER′2 (M = Al, Ga; E = P, As, Sb, Bi) are formed by reaction of the corresponding heterocycle with 4-(dimethylamino)pyridine (dmap). So prepared monomers react with transition metal complexes to give bimetallic complexes of the type base—M(R2)ER′2—M(CO)n.
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Schulz, S. (2002). Synthesis, Structure and Reactivity of Group 13/15 Compounds Containing the Heavier Elements of Group 15, Sb and Bi. In: Roesky, H.W., Atwood, D.A. (eds) Group 13 Chemistry I. Structure and Bonding, vol 103. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-47808-6_4
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