Syntheses and Optical Properties of Azo-Functionalized Ruthenium Alkynyl Complexes

Abstract

The syntheses of trans-[Ru(C≡C-1-C₆ H₄ -4-N=N-1-C₆ H₄ -4-C≡C-1-C₆ H₄ -4-NO₂ )Cl(L₂ )₂ ] (L₂ =dppm (Ru1), dppe) (Ru2)), trans-[Ru(C≡C-1-C₆ H₄ -4-N=N-1-C₆ H₄ -4-(E)-CH=CH-1-C₆ H₄ -4-NO₂ )Cl(dppe)₂ ] (Ru3), and trans-[Ru(C≡C-1-C₆ H₄ -4-(E)-CH=CH-1-C₆ H₂ -2,6-Et₂ -4-N=N-1-C₆ H₄ -4-NO₂ )Cl(dppe)₂ ] (Ru4) are reported, together with those of precursor alkynes. Their electrochemical properties were assessed by cyclic voltammetry (CV), linear optical and quadratic nonlinear optical (NLO) properties assayed by UV/Vis-NIR spectroscopy and hyper-Rayleigh scattering studies at 1064 nm, respectively, and their linear optical properties in the formally Ru^III state examined by UV/Vis-NIR spectroelectrochemistry. These data were compared to those of analogues with E-ene and yne linkages in place of the azo groups. Computational studies using time-dependent density functional theory were undertaken on model compounds (Ru2'-Ru4') to rationalize the optical behaviour of the experimental complexes.

Keywords: alkene ligands; alkyne ligands; electrochemistry; nonlinear optics; transition metals.