Three distinct routes are reported to the soluble, dihydridoaluminate compounds, AM[Al(NON )(H) ] (AM=Li, Na, K, Rb, Cs; [NON ] =[O(SiMe NDipp) ] ; Dipp=2,6-iPr C H ) starting from the alkali metal aluminyls, AM[Al(NON )]. Direct H hydrogenation of the heavier analogues (AM=Rb, Cs) produced the first examples of structurally characterized rubidium and caesium dihydridoaluminates, although harsh conditions were required for complete conversion. Using 1,4-cyclohexadiene (1,4-CHD) as an alternative hydrogen source in transfer hydrogenation reactions provided a lower energy pathway to the full series of products for AM=Li-Cs. A further moderation in conditions was noted for the thermal decomposition of the (silyl)(hydrido)aluminates, AM[Al(NON )(H)(SiH Ph)]. Probing the reaction of Cs[Al(NON )] with 1,4-CHD provided access to a novel inverse sandwich complex, [{Cs(Et O)} {Al(NON )(H)} (C H )], containing the 1,4-dialuminated [C H ] dianion and representing the first time that an intermediate in the commonly utilized oxidation process of 1,4-CHD to benzene has been trapped. The synthetic utility of the newly installed Al-H bonds has been demonstrated by their ability to reduce CO under mild conditions to form the bis-formate AM[Al(NON )(O CH) ] compounds, which exhibit a diverse series of eyecatching bimetallacyclic structures.
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