Département de chimie moléculaire

A detailed photophysical investigation of two dinuclear ruthenium(ii) complexes is reported. The two metallic centers were coordinated to a bis-2{,}2′-bipyridine bridging ligand{,} connected either through the para (Lp{,} Dp) or the meta position (Lm{,} Dm). The results obtained herein were compared to the prototypical [Ru(bpy)3]2+ parent compound. The formation of dinuclear complexes was accompanied by the expected increase in molar absorption coefficients{,} i.e. 12 000 M−1 cm−1{,} 17 000 M−1 cm−1{,} and 22 000 M−1 cm−1 at the lowest energy MLCTmax transition for [Ru(bpy)3]2+{,} Dm and Dp respectively. The Lp bridging ligand resulted in a ruthenium(ii) dinuclear complex that absorbed more visible light{,} and had a longer-lived and more delocalized excited-state compared to a complex with the Lm bridging ligand. Variable temperature measurements provided valuable information about activation energies to the uppermost 3MLCT state and the metal-centered (3MC) state{,} often accompanied by irreversible ligand-loss chemistry. At 298 K{,} 48% of [Ru(bpy)3]2+* excited-state underwent deactivation through the 3MC state{,} whereas this deactivation pathway remained practically unpopulated (<0.5%) in both dinuclear complexes.