Phosphorus–fluorine compounds. Part XII. Phosphorus-31 and fluorine-19 nuclear magnetic resonance studies on fluorophosphine molybdenum complexes. Evaluation of geminal phosphorus–phosphorus spin-coupling constants, |2JPP′|, in cis-disubstituted octahedral complexes
Abstract
The 19F and 31P n.m.r. spectra of complexes of the type cis-L2Mo(CO)4, [where L is a fluorophosphine ligand, e.g. PF3, CF3PF2, CCl3PF2, ClCH2PF2, Me2NPF2, Et2NPF2, and (CF3)2PF], have been analysed as examples of XnAA′Xn′ spin-systems, and spin-coupling constants |1JPF|, |3JPF′|, and |2JPP′| have been accurately evaluated. For the [RPF2]2Mo(CO)4 series of compounds, |2JPP′| decreases in the order PF3 > CF3PF2∼ CCl3PF2 > ClCH2PF2 > Me2NPF2∼ Et2NPF2, which is the order of decreasing electron-withdrawing power of R. Factors which affect the magnitude of |2JPP′| are discussed. The n.m.r. spectra of the dialkylaminodifluorophosphine complexes provide very strong evidence for co-ordination to the metal via phosphorus rather than nitrogen.