Infrared Spectroscopy of Dioxouranium(V) Complexes with Solvent Molecules: Effect of Reduction

UO 2 + –solvent complexes having the general formula [UO 2 (ROH)] + (R=H, CH 3 , C 2 H 5 , and n‐C 3 H 7 ) are formed using electrospray ionization and stored in a Fourier transform ion cyclotron resonance mass spectrometer, where they are isolated by mass‐to‐charge ratio, and then photofragmented using a free‐electron laser scanning through the 10    μm region of the infrared spectrum. Asymmetric O=U=O stretching frequencies ( ν 3 ) are measured over a very small range [from ∼953 cm −1 for H 2 O to ∼944 cm −1 for n‐propanol (n‐PrOH)] for all four complexes, indicating that the nature of the alkyl group does not greatly affect the metal centre. The ν 3 values generally decrease with increasing nucleophilicity of the solvent, except for the methanol (MeOH)‐containing complex, which has a measured ν 3 value equal to that of the n‐PrOH‐containing complex. The ν 3 frequency values for these U(V) complexes are about 20 cm −1 lower than those measured for isoelectronic U(VI) ion‐pair species containing analogous alkoxides. ν 3 values for the U(V) complexes are comparable to those for the anionic [UO 2 (NO 3 ) 3 ] − complex, and 40–70 cm −1 lower than previously reported values for ligated uranyl(VI) dication complexes. The lower frequency is attributed to weakening of the OUO bonds by repulsion related to reduction of the U metal centre, which increases electron density in the antibonding π* orbitals of the uranyl moiety. Computational modelling of the ν 3 frequencies using the B3LYP and PBE functionals is in good agreement with the IRMPD measurements, in that the calculated values fall in a very small range and are within a few cm −1 of measurements. The values generated using the LDA functional are slightly higher and substantially overestimate the trends. Subtleties in the trend in ν 3 frequencies for the H 2 O–MeOH–EtOH–n‐PrOH series are not reproduced by the calculations, specifically for the MeOH complex, which has a lower than expected value.