We report the synthesis, characterisation and photochemical reactivity of the triazole-containing complex [Ru(pytz)(btz)2]2+ (1, pytz = 1-benzyl-4-(pyrid-2-yl)-1,2,3-triazole, btz = 1,1’-dibenzyl-4,4’-bi-1,2,3-triazolyl). The UV-visible absorption spectrum of 1 exhibits pytz- and btz-centred 1MLCT bands at 365 and 300 nm respectively. Upon photo-excitation, acetonitrile solutions of 1 undergo conversion to the ligand loss intermediate, trans-[Ru(pytz)(2-btz)(1-btz)(NCMe)]2+ (2, 363 = 0.013) and ultimately to the ligand loss product trans-[Ru(pytz)(btz)(NCMe)2]2+ (3), both of which are observed and characterised by 1H NMR spectroscopy. Time-dependent density functional theory calculations reveal that the S1 state of the complex has primarily HOMOLUMO pytz-based 1MLCT character. Data show that the 3MLCT and 3MC states are in close energetic proximity ( 0.11 eV to 2 d.p.) and that the T1 state from a single point triplet state calculation at the S0 geometry suggests 3MC character. Optimisation of the T1 state of the complex starting from the ground state geometry leads to elongation of the two Ru-N(btz) bonds cis to the pytz ligand to 2.539 and 2.544 Å leading to a psuedo 4-coordinate 3MC state rather than the 3MLCT state. The work therefore provides additional insights into the photophysical and photochemical properties of ruthenium triazole-containing complexes and their excited state dynamics
