Cu(II)-Azabis(oxazoline)-Complexes Immobilized on Superparamagnetic Magnetite@Silica-Nanoparticles: A Highly Selective and Recyclable Catalyst for the Kinetic Resolution of 1,2-Diols

Two different types of azide functionalized magnetite@silica nanoparticles are synthesized, which are ideally suited as inexpensive supports for catalysts and reagents as demonstrated with the grafting of copper(II)‐azabis(oxazoline) complexes via a copper(I) catalyzed azide/alkyne cycloaddition (CuAAC) reaction. The potential of the immobilized complexes as catalysts is tested in the desymmetrization of racemic 1,2‐diols through asymmetric benzoylation. Compared to azabis(oxazolines) “clicked” to common polymeric supports such as MeOPEG or Merrifield resin, Fe3O4@SiO2 proves to be superior with respect to activity and selectivity, as exemplified by employing the catalysts in up to five runs with consistent high activity and selectivity. Recycling of the catalysts is achieved quantitatively by magnetic decantation. Copper(II)‐azabis(oxazolines) are grafted on magnetite@silica nanoparticles via click chemistry, resulting in a highly selective heterogeneous nanocomposite that can be efficiently recycled through magnetic decantation. The catalysts are used for up to five iterative runs in the asymmetric benzoylation of 1,2‐diols with consistent high activity or enantioselectivity.