A tetradentate bis(pyridylpyrazolate)
chelate, L, is assembled by connecting two bidentate
3-(trifluoromethyl)-5-(2-pyridyl)pyrazole chelates at the 6 position
of the pyridyl fragment with a phenylamido appendage. This chelate
was then utilized in the synthesis of three osmium(II) complexes,
namely, [Os(L)(CO)2] (4), [Os(L)(PPh2Me)2] (5), and [Os(L)(PPhMe2)2] (6). Single-crystal X-ray structural analyses
were executed on 4 and 5 to reveal the bonding
arrangement of the L chelate. Phosphine-substituted derivatives 5 and 6 are highly emissive in both solution
and the solid state, and their photophysical properties were measured
and discussed on the basis of computational approaches. For application,
fabrication and analysis of organic light-emitting diodes (OLEDs)
were also carried out. The OLEDs using 5 and 6 as dopants exhibit saturated red emission with maximum external
quantum efficiencies of 9.8% and 9.4%, respectively, which are higher
than that of the device using [Ir(piq)3] as a red-emitting
reference sample. Moreover, for documentation, 5 and 6 also achieve a maximum brightness of 19540 cd·m–2 at 800 mA·cm–2 (11.6 V) and
12900 cd·m–2 at 500 mA·cm–2 (10.5 V), respectively.