Water,an Essential Element for a ZnII‐Catalyzed Asymmetric Quinone Diels‐Alder Reaction: Multi‐Selective Construction of Highly Functionalized cis‐Decalins

A Zn^II complex of a C₂‐chiral bisamidine‐type sp²N bidentate ligand ( L _R ) possessing two dioxolane rings at both ends catalyzes a highly efficient quinone asymmetric Diels‐Alder reaction (qADA) between o‐alkoxy‐p‐benzoquinones and 1‐alkoxy‐1,3‐butadienes to construct highly functionalized chiral cis‐decalins, proceeding in up to a >99:1 enantiomer ratio with a high generality in the presence of H₂O (H₂O:Zn^II=4–6:1). In the absence of water, little reaction occurs. The loading amount of the chiral ligand can be minimized to 0.02 mol % with a higher Zn/ L _R ratio. This first success is ascribed to a supramolecular 3D arrangement of substrates, in which two protons of an “H₂O‐Zn^II” reactive species make a linear hydrogen bond network with a dioxolane oxygen atom and one‐point‐binding diene; the Zn^II atom captures the electron‐accepting two‐points‐binding quinone fixed on the other dioxolane oxygen atom via an n‐π* attractive interaction. The mechanisms has been supported by ¹H NMR study, kinetics, X‐ray crystallographic analyses of the related Zn L _R complexes, and ligand and substrate structure‐reactivity‐selectivity relationship.