Energy conversion: from the ligand field photochemistry to solar cells

The investigation of photochemical and photophysical properties of coordina tion compounds as well as experiments on solar cells carried out in our Lab oratory of Inorganic Photochemistry and Energy Conversion are outlined here . They are discussed in parallel with the current state of knowledge in eac h topical area. Particular emphasis is given to the photochemical behavior of the [Fe(CN)(5)L](3-) complexes including the solvent dependence for the photosubstitution of both L and CN. The quantum yields for the photodissoci ation of a cyanide are also analyzed in terms of such effects as metric, to pological, chelating and neighboring group effects on the photoinduced ring closure efficiency. The photophysics and photochemistry of some rhenium co mplexes are discussed, as well as some supramolecular photochemistry, in pa rticular, ion-pair photochemistry of cobalt complexes and a covalently-link ed Re-Ru system. Finally, the investigations on solar energy conversion and development of thin-layer solar cells based on sensitization of nanocrysta lline TiO2 semiconductor films by some ruthenium polypyridyl complexes are presented. (C) 2000 Published by Elsevier Science S.A. All rights reserved.