Abstract
AbstractRecently, it was found that the widely used stoichiometric reducing reagent LiAlH4 can also be used as a useful catalyst for imine hydrogenation with H2 under relatively mild conditions. In this work, extensive state‐of‐the‐art DFT calculations are conducted to explore the detailed catalytic mechanism. In sharp contrast to the recent proposal involving heterolytic H2‐activation over Al−N amide bonds after multiple imine insertion, our new mechanism highlights the dual role of the Lewis‐acidic lithium cation in frustrated‐Lewis‐pair‐like activation of both imine substrate and H2 when combined with the aluminum‐bound hydride and amide ligands, respectively. Ionic Li−N amide bonds are about 13 kcal/mol more reactive than Al−N amide bonds for H2 activation, thus providing a useful structural feature for rational design of active hydrogenation catalysts.
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