Fourier Transform NMR Studies of 95Mo and 97Mo

Abstract

⁹⁵Mo and ⁹⁷Mo Fourier transform NMR studies of several alkali molybdate solutions in H₂O and D₂O are reported. The Larmor frequency of the molybdenum nuclides is remarkably dependent on the solute and the solvent. In potassium molybdate the chemical shifts of ³⁹K were observed. The ratio of the Larmor frequencies of ⁹⁵Mo and ³⁹K was measured with high accuracy in a 2.6 molal solution of K₂MoO₄ in H₂O. From this value a nuclear magnetic moment of ⁹⁵Mo and ⁹⁷Mo in the molybdate ion was derived using the concentration dependencies of the Larmor frequencies of ³⁹K and ⁹⁵Mo and the ratio of the Larmor frequencies of ⁹⁷Mo and ⁹⁵Mo. In solid Ag₂MoO₄ and metallic molybdenum the ⁹⁵Mo and ⁹⁷Mo NMR signals were detected; line widths and shifts are given.