On the nature of the first excited states of the uranyl ion

We examine a report that emission can be observed from excited states of the uranyl ion, above that giving the usual green emission, in the light of new measurements. We can find no firm evidence for emission from such states.

A close analysis of the relative importuce of spin-orbit coupling and of one-electron cncrg ditfcrenccs in the 5f shell, combined with spectroscopic data on uranyl ions in glasses and crystals, suggsts the lowest excited level to have R = 3, even parity and no ~vcli-dciined S nnd A.

ab initio theoretical calculations on 32 excited states of Hz0 found to lie below 11.7 eV. Of the eight states observed experimentally, the svemge discrepancy between theoretical and esperimental excitation energies is 0.1 eV. We find that the excited states can each be characterized as arising from

We report Shpol'skii-type luminescence spectra of C70 in n-pentane at 1.5 K with vibronic linewidths of 3 cm -~. The vibronic structure of both fluorescence and phosphorescence has been unravelled. The fluorescence intensity largely shows up in vibronic bands corresponding to transitions to ground-s

The literature indicates a four-fold or su-fold coordination symmetry for \(\mathrm{UO}_{2}^{2+}\) in aqueous solution However, the uranyl ion in erystalline \(\mathrm{UO}_{2}\left(\mathrm{ClO}_{4}\right)_{2} 7 \mathrm{H}_{2} \mathrm{O}\) has been found by \(\mathrm{X}\)-ray diffraction to be coordi