PH-sensitive Ru(II) and Os(II) bis(2,2′:6′,2"-terpyridine) complexes:: A photophysical investigation

We have investigated the photophysical properties of two metal complexes, [M(tpy-py)(2)][PF6](2), where tpy-py = 4-(4-pyridyl)2,2':6',2"-terpyridine and M = Ru(II) or Os(II), in acetonitrile and aqueous solutions at room temperature. Because the 4-pyridyl unit on the 4'-position of each tpy ligand contains a basic nitrogen atom, both of these compounds can exist in three different protonation states. We observed that the absorption and luminescence spectra of these compounds vary on changing the pH, because the protonation of the pendant pyridine unit makes it an electron acceptor by lowering the energy of its pi* orbital. We employed the absorption and luminescence spectral changes to study the acid-base reactions for these complexes, and found that the two protonation stages exhibit different pK(a) values both in the electronic ground state and in the lowest (emitting) excited state. The absorption spectra and luminescence spectra and lifetimes of the deprotonated, mono-protonated and bis-protonated forms were also determined. While the absorption spectra of the variously protonated forms of both compounds can be intepreted in terms of a linear combination of two different and independent chromophores, namely M(tpy-py) and M(tpy-pyH(+)), the corresponding luminescence spectra exhibit a more complex behaviour, suggesting that the coupling between the two ligands in the lowest excited state is not negligible. Interestingly, at a low pH the luminescence of the Ru complex is switched on, whereas that of the Os complex is strongly quenched upon protonation of the pendant pyridine units. These compounds are of interest because they exhibit a luminescent signal in the red or far red spectral region that can be switched on or off by protons in solution. Hence, they could find applications as luminescent pH sensors and as molecular switches where a low-energy emission signal can be controlled by a chemical acid-base stimulation. (c) 2006 Elsevier B.V. All rights reserved.