The oxazoline moiety is a ubiquitous, privileged structural element of chiral ligands.[1] The rigid nature of the fivemembered oxazoline ring, the ease of synthesis and the ready availability of many differently substituted derivatives add to their attractiveness. The most well-known oxazoline ligands are bisoxazolines (BOX) [2] and phosphine-oxazolines (PHOX), [3] but many more heterobidentate oxazoline ligands, such as phosphinites, [4] phosphites, [5] pyridines, [6] phosphoramidates, [7] phenols, [8] alcohols, [9] sulfoxides, [10] sulfonamides, [11] thioethers, [12] and N-heterocyclic carbenes [13] have been successfully applied in asymmetric catalysis. Despite the structural diversity of these systems, only h 1 -binding, singledonor-atom ligands have been combined with the oxazoline fragment. Inspired by the recent success of chiral olefin ligands in asymmetric catalysis, [14] we reasoned that the combination of h 2 -binding olefins with oxazolines would allow new coordination geometries and possibilities. We present herein the ready synthesis of modular and easily tunable olefin-oxazoline ligands (OlefOx) and their successful application in asymmetric catalysis. We began with the preparation of a series of electronically and sterically varied olefin-oxazolines (Scheme 1).In each case, olefin and oxazoline were attached to a benzene ring (internal ring) in a 1,2-fashion. As an illustrative example, the highly modular three-step synthesis of ligand 5 is discussed (Schemes 2 and 3). Starting from commercially available 2-methyl benzaldehyde, the oxazoline ring was Scheme 1. Olefin-oxazoline ligands prepared in this study.Scheme 2. Synthesis of olefin-oxazoline ligand 5.[16] Reagents and conditions: a) (S)-phenylalaninol, CH 2 Cl 2 , room temperature, 16 h; then N-bromosuccinimide (NBS), room temperature, 30 min, 75 %; b) tBuLi, LiNCy 2 (Cy = cyclohexyl), ClPO(OEt) 2 , THF, À78 8C to room temperature, 16 h, 47 %; c) KOtBu, toluene, 3,4-dimethoxybenzaldehyde, room temperature, 15 h, 74 %.