RESUMEN
A series of Ru(ii)L2L' (L = 2,2'-bipyridyl, L' = 2,2'-bipyridine-5,5'-dicarboxylic acid), RuDCBPY, -containing zirconium(iv) coordination polymer thin films have been prepared as sensitizing materials for solar cell applications. These metal-organic framework (MOF) sensitized solar cells, MOFSCs, each are shown to generate photocurrent in response to simulated 1 sun illumination. Emission lifetime measurements indicate the excited state quenching of RuDCBPY at the MOF-TiO2 interface is extremely efficient (>90%), presumably due to electron injection into TiO2. A mechanism is proposed in which RuDCBPY-centers photo-excited within the MOF-bulk undergo isotropic energy migration up to 25 nm from the point of origin. This work represents the first example in which a MOFSC is directly compared to the constituent dye adsorbed on TiO2 (DSC). Importantly, the MOFSCs outperformed their RuDCBPY-TiO2 DSC counterpart under the conditions used here and, thus, are solidified as promising solar cell platforms.
RESUMEN
We cultured Pasteurella multocida from the cerebrospinal fluid (CSF) of a 4-month-old infant who presented with meningitis. The patient had been scratched on the head by a cat. Culture of the cat's claws also yielded P. multocida. The isolates had identical biochemical patterns. Analysis of both strains by random amplification of polymorphic DNA and comparison of these strains with P. multocida strains isolated from other cats showed that the two strains were identical and completely different from the unrelated isolates. Our patient's meningitis most likely resulted from direct inoculation of P. multocida into the CSF.