Enhancement of external spin-orbit coupling effects caused by metal-metal cooperativity. Academic Article uri icon

abstract

  • As part of our efforts to discover simple routes to room-temperature phosphors, we have investigated the interaction of bis(pentafluorophenyl)mercury (1) or trimeric perfluoro-o-phenylene mercury (2) with selected arenes (naphthalene, biphenyl, and fluorene). Solution studies indicate that 2, unlike 1, quenches the fluorescence of naphthalene. When compared to 1, the high quenching efficiency of 2 may be correlated to the higher affinity that 2 displays for arenes as well as to more acute external heavy-atom effects caused by the three mercury atoms. In the crystal, the adducts [1.naphthalene], [1.biphenyl], [1.fluorene], and [2.fluorene] form supramolecular binary stacks in which the arene approaches the mercury centers of 1 or 2 to form Hg-C pi-interactions. Analysis of the electrostatic potential surfaces of the individual components supports the involvement of electrostatic interactions. The luminescence spectra of the adducts show complete quenching of the fluorescence and display heavy-atom-induced emission whose energies and vibronic progressions correspond to the phosphorescence of the respective pure arene. The phosphorescence lifetimes are shortened by 3 or 4 orders of magnitude when compared with those of the free arenes. Taken collectively, the structural, photophysical, and computational results herein suggest that the proximity of the three mercury centers serves to enhance the Lewis acidity of 2, which becomes a better acceptor and a more effective heavy-atom effect inducer than 1.

published proceedings

  • Inorg Chem

author list (cited authors)

  • Burress, C. N., Bodine, M. I., Elbjeirami, O., Reibenspies, J. H., Omary, M. A., & Gabbai, F. P.

citation count

  • 78

complete list of authors

  • Burress, Charlotte N||Bodine, Martha I||Elbjeirami, Oussama||Reibenspies, Joseph H||Omary, Mohammad A||Gabbaiï, François P

publication date

  • February 2007