Frustrated Lewis Pairs from Al-E^{14}Bonds (E^{14}=Ge, Sn, Pb)

The potassium aluminyl K[Al(NON)] ([NON]^2-= [O(SiMe₂NDipp)₂]^2-Dipp =2,6-iPr₂C₆H₃) reacts with group 14 chloroamidinates E^{14}(Am)Cl (E^{14}=Ge, Sn, Pb. [Am]^-= [tBuC(NDipp)₂]^-) to form (NON)Al-E^{14}(Am) Lewis pairs with unsupported Al-E^{14}bonds, including the first structurally authenticated Al-Pb bond. Analysis using spectroscopic (NMR, UV-vis and Mössbauer for E^{14}=Sn), X-ray diffraction and computational (DFT, QTAIM, TD-DFT) methods conclude an Al-E^{14}σ-bond derived from a Lewis basic Al and a Lewis acidic tetrylene, with back-donation from the E^{14}s-orbital lone pair donor NBO to acceptor NBOs on Al that are derived from s/p orbitals. The reaction of the Al-Ge compound with CO₂forms the dioxocarbene (NON)Al(μ-O₂C)Ge(Am), whilst under the same conditions the Al-Sn compound reacts with additional CO₂to form the carbonate, (NON)Al(μ-CO₃)Sn(Am). Addition of ethene to the Al-E^{14}(E^{14}=Ge, Sn) compounds introduces an ethylene bridge between the aluminium and group 14 atoms forming a frustrated Lewis pair (FLP). Reaction of the (Al/Ge) FLP with CO₂forms an activation product with new Al-O and Ge|-C bonds, whilst reaction with iPrN=C =NiPr proceeds with insertion into the Al-C bond to form an aluminium amidinate.