Measurements of fluorine and phosphorus chemical shift anisotropies

Abstract

The ³¹P chemical shift anisotropy in the pyrophosphate group has been investigated by measuring the field dependence of the second moment of the N.M.R. absorption lineshape in sodium and potassium pyrophosphates. Assuming axial symmetry the value of σ_∥ - σ_⊥ was found to be 200 ± 100 p.p.m. A study of the ³¹P chemical shift in a crystal of sodium pyrophosphate decahydrate gave values of -50, +30, +50 and -10 p.p.m., for the tensor components σ _xx , σ _yy , σ _zz and σ _zx , but the crystal symmetry was such that the elements σ _xy and σ _yz were indeterminate. Investigations of the field dependence of ¹⁹F second moments yielded a value of 280 p.p.m. for σ_∥ - σ_⊥ in both tetrafluorohydroquinone and trifluoroacetanilide, whilst the ¹⁹F second moment in trifluoroacetamide showed little if any field dependence.