Sensitization of TiO2 with ruthenium complexes containing boronic acid functions.

New ruthenium complexes based on bipyiridine and terpyridyne type ligands, containing boronic acid functions, of formulae: [Ru(bpy-OB(OH)(2))(2)(CN)(2)], 6, (bpy-Phi-B(OH)(2) = 4-(2,2'-dipyridil)phenylboronic acid), [Ru(trpy-B(OH)(2))(tb(2)bpy)Cl](PF6), 11, (trey-B(OH)(2) = 4-[4'-(2,2':6',2"-terpyridil]-boronic acid), [Ru(trpy)-Phi-B(OH)(2))(tb(2)bpy)Cl] (PF6), 12, (trey)-Phi-B(OH)(2) = 4-[4'-(2,2':6',2"-terpyridil]phenylboronic acid), have been prepared, characterized, and tested in dye-sensitized solar cells (DSSCs). The results of this first study indicate that: (i) the boronic acid function acts as interlocking group between sensitizer and mesoporous titanium dioxide; (ii) only the presence of two B(OH)(2) groups/molecule allow to obtain high photoanode surface coverages with optical densities > 1; (iii) The presence of the phenyl spacer in 12 reduces the photocurrent efficiency with respect to complex 11, most probably for a reduced electronic coupling between excited sensitizer and semiconductor conduction band. The insights gained from this work suggest that better photoelectrochemical performances should be obtained with dye molecules based on bpy type ligands bearing two boronic acid functions directly bound to the aromatic ring.