Photophysical study of spiro-bifluorene bridged Pt(II), Os(II) and Ir(III) luminescent complexes and supramolecular arrays.

This paper describes expeditious stepwise synthesis of polynuclear complexes based on heteroleptic iridium(iii) and osmium(ii) fragments linked to a central Pt(ii) module via a spirobifluorene-bridge using a strategy based on the construction of preformed complexes. The luminescence features of the final multi-chromophoric array, i.e. a tetrad consisting of spirobifluorene-bridged Pt, Ir and Os complexes, have been studied by comparison with the features of reference complexes bearing two identical luminophores (Ir or Os) at the periphery. The (3)MPtLCT and (3)LC states of the Pt and spiro ligand undergo fast energy transfer into the (3)MIrLCT or the (3)MOsLCT state in the Pt-M2 (M = Ir or Os) arrays, whereas the (3)LC and the (3)MPtLCT states function as energy reservoirs for the metal excited states close in energy, resulting in a pronounced increase of the excited state lifetimes of these arrays. The tetrad efficiently works as an antenna system where the collected light energy is transferred to the Os unit acting as the final collector.