Solid State EXAFS and Luminescence Studies of Neutral, Dinuclear Gold(I) Complexes. Gold(I)-Gold(I) Interactions in the Solid State

A series of neutral, dinuclear gold(I) complexes, containing phosphine and thiolate ligands, have been studied by EXAFS and luminescence spectroscopy. Gold(I)-gold(I) interactions are detected for the first time by EXAFS studies on solid samples at liquid helium temperature. A strong, distinct peak at 1.90 {+-} 0.02 {angstrom}, assigned to Au-P and Au-S bonds, appears in the Fourier transform for complexes 1-8. A less intense peak appears for complexes 2-6 at 2.8 {angstrom} with the amplitude maximizing toward high k characteristic of a gold backscattering atom. The calculated EXAFS results indicate gold(I)-gold(I) distances ranging from 3.0 to 3.2 {angstrom} for complexes 2-6. In contrast, no gold(I)-gold(I) interactions are detected for complexes 1, 7, and 8. The Au-Au and Au-P(S) distances calculated by EXAFS are similar to those measured by X-ray diffraction. All of the neutral, dinuclear gold(I) complexes luminescence at room temperature in the solid state. The Stokes shifts average 6 x 10{sup 3} cm{sup {minus}1} and are indicative of a large distortion in the excited state compared to the ground state. Spectral acquisition using time delays of 10-50 {mu}s confirms the phosphorescent nature of the emission. The origin of the luminescence of complexes 1-8 is consistent with a S {yields}more » Au CT excited state that is perturbed by substituent electronic effects leading to the red shift in emission for 5-8 relative to 1-4. There is no correlation between gold(I)-gold(I) bonding and the energy or band shape of the excitation and emission of 1-8. The luminescence and EXAFS results taken together demonstrate that a gold(I)-gold(I) interaction is not a necessary condition for luminescence. Further, the presence of a gold(I)-gold(I) interaction does not significantly perturb the luminescence in this series of gold(I) complexes.« less