Abstract
Blue phosphorescent Pt(II) complexes with 2,3′-bipyridine-based tetradentate C^N chelating ligands have been designed and synthesized. To investigate the effect of the substitution of an electron-donating/withdrawing unit on the solid-state structure and photo- and electroluminescence, either fluorine or methoxy substituents were incorporated into the C-coordinating pyridine ring. The molecular structures of all the complexes were fully characterized by different spectroscopic methods, including X-ray diffraction analysis. There are no Pt(II)···Pt(II) intermolecular interactions in crystal packing. Pt(II) complexes bearing fluorine substituents emit bright blue phosphorescence with λmax 460 nm, while methoxy-functionalized Pt(II) complexes display red-shifted and bluish green emissions with λmax 490 nm. The electron-withdrawing group at the C-coordinating pyridine ring produced a deeper HOMO (highest occupied molecular orbital) level in comparison to its electron-donating counterpart. However, the substit...
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