Photophysical properties of Ru-cyano-poly(pyridine) complexes. Acidity and temperature tuning of luminescence properties

Abstract

The emission spectra and lifetimes of Ru(biq)₂(CN)₂, Ru(DMCH)₂(CN)₂ and Ru(i-biq)₂(CN)₂(biq = 2,2′-biquinoline, DMCH = 6,7-dihydro-5,8-dimethyldibenzo[3,2-b : 2′,3′-j][1,10]phenanthroline, i-biq = 2,2′-bi-iso-quinoline) have been studied in several methanol–concentrated H₂SO₄ solvent mixtures at 77 K and in nitrile mixtures from 84 to 310 K. For Ru(biq)₂(CN)₂ and Ru(DMCH)₂(CN)₂, where the lowest metal-to-ligand charge-transfer (MLCT) level lies at much lower energy than the lowest ligand-centred (LC) level, protonation reverses the energy ordering of the levels and leads to an LC emission. For Ru(i-biq)₂(CN)₂ the MLCT levels lie at higher energies and the emission is substantially LC in nature in methanol, but clearly becomes ‘purer’ LC on addition of H₂SO₄, as shown by the strong increase in the emission lifetime. The temperature dependence (in nitrile solution) of emission spectra and emission lifetimes shows that for Ru(biq)₂(CN)₂ and Ru(i-biq)₂(CN)₂ relaxation of the solvent cage, made possible by melting of the rigid matrix, stabilizes the MLCT level. In the biq complex this is the emitting level in a rigid matrix, whereas for the i-biq complex the stabilization of the MLCT level causes a change in the energy ordering and thus in the nature of the emitting state, which is essentially LC in a rigid matrix and MLCT in fluid solution. Detailed experimental results, including pH-dependent, temperature-dependent and time-dependent emission spectra are illustrated and discussed.