@Article{JPhysChem__95_10496,<br>
   author = {A.N. Russu and E. Vauthey and C. Wei and U.P. Wild},<br>
   title  = {{Photon-Gated Holography: Triphenylene in a Boric Acid Glass}},<br>
   journal= {J. Phys. Chem.},<br>
   ISSN     = {0022-3654},<br>
   volume= {95},<br>
   pages = {10496},<br>
   url =   {http://pubs.acs.org/doi/abs/10.1021/j100178a042},<br>
   doi= {10.1021/j100178a042},<br>
   abstract  = {{The observatiqn of photon-gated hologram formation in a boric acid glass doped with triphenylene is reported. The first photon excites triphenylene to its first singlet excited state and, through intersystem-crossing, populates the first triplet stateTI. The second photon excites TI to T,, where autoionization occurs, leading to the formation of a radical cation. The gatinglight populating TI via SI is spatially uniform, while the light exciting TI to T, is spatially modulated. The long lifetime of the first triplet state allows Recording with low light intensities (mW/cm2). The spatially modulated excitation light forms three gratings (educt, intermediate state, and product). The extent of the interaction between these gratings depends on the overlap between educt, intermediate, and product absorption and refraction spectra as well as on the reading wavelength. The holograms were read at 363.8 and 632.8 nm. When the gating light is blocked, the holographic efficiency stays constant when read at 632.8 nm but increases substantially when read at 363.8 nm.}},<br>
   year   = {1991}<br>
}<br>

@Article{JPhysChem__95_7115,<br>
   author = {E. Haselbach and P. Jacques and P. Suppan and D. Pilloud and E. Vauthey},<br>
   title  = {{The Quenching of Triplet Benzophenone by 1,4-Diazabicyclo[2,2,2]octane in acetonitrile revisited}},<br>
   journal= {J. Phys. Chem.},<br>
   ISSN     = {0022-3654},<br>
   volume= {95},<br>
   number= {19},<br>
   pages = {7115-7117},<br>
   url =   {http://pubs.acs.org/doi/abs/10.1021/j100172a001},<br>
   doi= {10.1021/j100172a001},<br>
   abstract  = {{In conditions of laser flash photolysis, the kinetics of decay of the absorption of the benzophenone radical anion show that free, solvated ions are formed after electron transfer between the title compounds in neat, dry acetonitrile. Furthermore, it is shown that the opposite conclusion claimed by Devadoss and Fessenden (J. Phys. Chem., 1990, 94,4540), Le., no ion pair dissociation, results from a misinterpretation of the transient decay rate.}},<br>
   year   = {1991}<br>
}<br>