Grushin, Vladimir V.; Herron, Norman; LeCloux, Daniel D.; Marshall, William J.; Petrov, Viacheslav A.; Wang, Ying published the artcile< New, efficient electroluminescent materials based on organometallic Ir complexes>, Product Details of C33H21F3IrN3, the main research area is crystal structure iridium cyclometalated fluorinated arylpyridine complex; mol structure iridium cyclometalated fluorinated arylpyridine complex; electroluminescent fluorinated organometallic iridium compound preparation; LED photoluminescence luminescence iridium cyclometalated fluorinated arylpyridine complex; reduction potential cyclometalated fluorinated iridium arylpyridine complex; oxidation potential cyclometalated fluorinated iridium arylpyridine complex; fluorinated cyclometalated arylpyridine iridium complex preparation electroluminescent property; phenylpyridine cyclometalated fluorinated iridium complex preparation electroluminescent property; pyridine phenyl cyclometalated fluorinated iridium complex preparation electroluminescent property.
Reaction of aqueous IrCl3 with fluorinated 2-arylpyridines in the presence of AgO2CCF3 afforded fifteen fac-tris-cyclometalated arylpyridine Ir complexes (e.g., I) exhibiting excellent processing and electroluminescent properties which can be fine-tuned via systematic control of the nature and position of the substituents on the aromatic rings. Single-crystal x-ray structures were obtained for I and three other analogous cyclometalated arylpyridine Ir complexes. Nearly all the arylpyridine Ir complexes exhibited fully reversible reduction and oxidation waves.
Chemical Communications (Cambridge, United Kingdom) published new progress about Crystal structure. 370878-69-6 belongs to class pyridine-derivatives, and the molecular formula is C33H21F3IrN3, Product Details of C33H21F3IrN3.