N-heterocyclic carbene platinum-butadiyne Click/iClick complexes. Towards blue-violet phosphorescence

Abstract

By employing two different methods, namely, Click and iClick, a series of four trans-NHC-Pt(II) triazole-acetylide complexes containing benzyl (3a), methylnaphthalene (3b), methylanthracene (3c), and phenyl (3d) substituents at the terminal triazole ring were synthesized and characterized. The traditional click approach involves first synthesizing a triazole-acetylene and then attaching to the Pt ion. In the iClick approach, the triazole is formed via cycloaddition by combining a trans-platinum butadiyne with the corresponding organic azide. The complexes were interrogated to determine the effects of conjugation and ligand substituent on their photophysical properties. Complex 3a exhibits a photoluminescence lifetime of 4.3 μs at 77 K. Ascribed to emission from conformers differing due to the torsion of the aryl acetylide ligands, employing different excitation wavelengths results in different emission spectra. Complex 3a emits in the violet region with CIE coordinates of (0.159, 0.021) under 290 nm excitation and shifts to CIE coordinates of (0.161, 0.019) under 320 nm excitation. Complex 3d, having a photoluminescence lifetime of 13.1 μs at room temperature, emits in the sky-blue region with CIE coordinates of (0.237, 0.355).