Asymmetric hetero-Diels-Alder (HDA) reactions of N-sulfinyl dienophiles using bis(oxazoline)-copper(II) and -zinc(II) triflates are described. The cycloadditions with cyclic and acyclic 1,3-dienes have been studied. In most cases, good enantioselectivities (70-98% ee) and yields (60-85%) were obtained with stoichiometric amounts of the Lewis acids. Cyclic dienes gave the endo adducts as major products, while acyclic dienes provided cis adducts. The HDA adducts have been transformed into N-protected alpha-amino acid methyl esters, amino alcohols, and homoallylic amines. A stereochemical model, which accounts for the enantiofacial selectivity of the HDA reaction by a tetrahedral metal center, has been proposed. Mechanistic studies revealed positive nonlinear effects, assumed to arise from the formation of less-reactive heterochiral complexes. Investigation of the temperature dependence of the enantioselectivity indicated that at least two selective reaction steps exist in the zinc-catalyzed reaction. Reactions run with 10 mol % chiral Lewis acid gave poor yields and selectivities. However, in combination with TMSOTf (100 mol %), high yields (68-86%) and enantioselectivities (97-98% ee) were obtained.