Steric influence on the excited-state lifetimes of ruthenium complexes with bipyridyl-alkanylene-pyridyl ligands |
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Authors: | Abrahamsson Maria Lundqvist Maria J Wolpher Henriette Johansson Olof Eriksson Lars Bergquist Jonas Rasmussen Torben Becker Hans-Christian Hammarström Leif Norrby Per-Ola Akermark Björn Persson Petter |
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Institution: | Department of Photochemistry and Molecular Science, Uppsala University, Uppsala, Sweden. |
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Abstract: | The structural effect on the metal-to-ligand charge transfer (MLCT) excited-state lifetime has been investigated in bis-tridentate Ru(II)-polypyridyl complexes based on the terpyridine-like ligands 6-(2,2'-bipyridyl)](2-pyridyl)methane ( 1) and 2-6-(2,2'-bipyridyl)]-2-(2-pyridyl)propane ( 2). A homoleptic (Ru( 2) 2] (2+)) and a heteroleptic complex (Ru(ttpy)( 2)] (2+)) based on the new ligand 2 have been prepared and their photophysical and structural properties studied experimentally and theoretically and compared to the results for the previously reported Ru( 1) 2] (2+). The excited-state lifetime of the homoleptic Ru (II) complex with the isopropylene-bridged ligand 2 was found to be 50 times shorter than that of the corresponding homoleptic Ru (II) complex of ligand 1, containing a methylene bridge. A comparison of the ground-state geometries of the two homoleptic complexes shows that steric interactions involving the isopropylene bridges make the coordination to the central Ru (II) ion less octahedral in Ru( 2) 2] (2+) than in Ru( 1) 2] (2+). Calculations indicate that the structural differences in these complexes influence their ligand field splittings as well as the relative stabilities of the triplet metal-to-ligand charge transfer ( (3)MLCT) and metal-centered ( (3)MC) excited states. The large difference in measured excited-state lifetimes for the two homoleptic Ru (II) complexes is attributed to a strong influence of steric interactions on the ligand field strength, which in turn affects the activation barriers for thermal conversion from (3)MLCT states to short-lived (3)MC states. |
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