Monofluorophos-Metal Complexes: Ripe for Future Discoveries in Homogeneous Catalysis

Molecules. 2024 May 17;29(10):2368. doi: 10.3390/molecules29102368.

Abstract

The discovery that cyclic (ArO)2PF can support Rh-catalysts for hydroformylation with significant advantages in tuning regioselectivity transformed the study of metal complexes of monofluorophos ligands from one of primarily academic interest to one with potentially important applications in catalysis. In this review, the syntheses of monofluorophosphites, (RO)2PF, and monofluorophosphines, R2PF, are discussed and the factors that control the kinetic stability of these ligands to hydrolysis and disproportionation are set out. A survey of the coordination chemistry of these two classes of monofluorophos ligands with d-block metals is presented, emphasising the bonding of the fluorophos to d-block metals, predominantly in low oxidation states. The application of monofluorophos ligands in homogeneous catalysis (especially hydroformylation and hydrocyanation) is discussed, and it is argued that there is great potential for monofluorophos complexes in future catalytic applications.

Keywords: coordination chemistry; fluorophosphines; fluorophosphites; homogeneous catalysis.

Publication types

  • Review

Grants and funding

We would like to thank Khalifa University for a Visiting Scholar Grant (to PGP). This work was also supported by the Engineering and Physical Sciences Research Council with the award of PhD studentships to AMH and, via the Centre for Doctoral Training in Catalysis [grant number EP/L016443], to DG.