Анотація:
Phosphorescence spectra of crystalline ortho-bromobenzophenone (2-bromobenzophenone,
2BrBP) were measured from 1.6 K to room temperature. A cardinal emission mechanism crossover
occurs within this temperature range. At low temperature the phosphorescence spectrum is a
superposition of two similar sets of equidistant bands spaced by the C=O stretch frequency. We
ascribe these two sets to the emission of two different conformers, one of which is metastable and
do not manifest itself above approximately 70 K. Presence of two conformers is explained by the
fact that the 2BrBP molecule deforms considerably upon excitation. The emission from the stable
conformer survives up to approximately 140 K or even higher. At roughly 60 K and higher, another
type of emission reveals itself in the shape of a two very broad partly overlapping bands, which
gains in intensity with increasing temperature. Above 150 K only this two-hump feature is
observed in phosphorescence spectra. Additional phosphorescence experiments were carried out to
elucidate the nature of this spectrum, including phosphorescence measurements of 2BrBP in
ethanol solutions as well as time-resolved and varying-excitation-intensity measurements from
crystals. Based on results of all the experiments reported here and on our own single-crystal x-ray
structure data we conclude that the above two-band spectrum recorded near room temperature is
due to the emission of single-photon bimolecular triplet excimer formed by the carbonyl groups of
two neighbor 2-bromobenzophenone molecules. It is got the first time that a bimolecular excimer
has been observed and reliably identified in a benzophenone derivative solid.