Trisoxazolines
Trisoxazolines are a class of tridentate, chiral ligands composed of three oxazoline rings. Despite being neutral they are able to form stable complexes with high oxidation state metals, such as rare earths, due to the chelate effect. The ligands have been investigated for molecular recognition and their complexes are used in asymmetric catalysts and polymerisation.
Synthesis
Trisoxazolines can either be synthesised directly, from suitable tripodal starting materials, or built up in a modular manner. These approaches can be used to give ligands of differing symmetries, with the direct synthesis route giving homochiral ligands with C3 rotational symmetry and the modular approach typically being used to give asymmetric compounds, which are either heterochiral or possess a mix of both chiral and achiral groups. These differences in symmetry can significantly effect the coordination chemistry of the ligands and the catalytic activity of their complexes, with C3 symmetric ligands often being better for asymmetric catalysis.Direct methods
Suitable tripodal compounds, such as trimesic acid and nitrilotriacetic acid, can be converted directly to trisoxazolines. The simplicity of this approach is beneficial, however it only allows a limited variety of structures to be produced, due to the limited range of available starting materials.Modular methods
Modular synthesis allows for a more diverse range of structures, however the multi-step reactions can result in lower overall yields. In general synthesis involves the generation of separate mono‑oxazoline and bis-oxazoline units, which are then coupled using a strong base such as tBuLi or KN(SiMe3)2.In addition to the inclusion of heterochirality, modular synthesis also allows for the synthesis of 'lopsided' structures which have application as scorpionate ligands.