Electron and energy transfer within dyads involving polypyridylruthenium(II) and -osmium(II) centres separated by rigid alicyclic bridges
Journal Publication ResearchOnline@JCUAbstract
Rigid alicyclic frameworks (often referred to as molracs, relating to the molecular rack nature of the frame) have been used to vary the separation between organic electron-acceptor (quinone) moieties and chromophoric polypyridylruthenium(II) centres, and between metal centres in Ru–Ru and Ru–Os dinuclear complexes. Photophysical studies have allowed a preliminary insight into the effectiveness of such alicyclic structures in mediating intramolecular photoinduced energy and electron transfer. In the chromophore–spacer–quinone dyads, solvent-dependent quenching of the ruthenium(II) MLCT emission was observed and attributed to electron transfer processes. Distance and stereochemical dependencies of the quenching suggested that through-bond coupling was a factor in these systems. In the heterodinuclear systems, the photo-excited ruthenium(II) chromophore underwent intramolecular energy transfer to the osmium(II) component. A through-space Förster dipole–dipole mechanism could adequately account for the rate of the energy transfer process observed.
Journal
Dalton Transactions
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Volume
2000
ISBN/ISSN
1477-9234
Edition
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Issue
15
Pages Count
8
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Publisher
Royal Society of Chemistry
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EISSN
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DOI
10.1039/b003174g