Synthesis, photophysical and electroluminescent properties of green organic light emitting devices based on novel iridium complexes containing benzimidazole ligands

Synthesis, photophysical and electroluminescent analysis of cyclometalated iridium (III) complexes Ir(bpb)2(pic) are reported. The strongly allowed phosphorescence is the result of significant spin-orbit coupling of the Ir center. The lowest energy excited sate is a mixture of metal to ligand charge transfer (MLCT) and π–π* states. Weak bands at longer wavelength were assigned to 1MLCT ← S0 and 3MLCT ← S0 transitions. These complexes were doped into emissive region of multilayer organic light emitting diode (OLED) by vapor-deposition emit green electroluminescence with similar current–voltage characteristics. These Ir(bpb)2(pic) doped OLEDs show appreciable efficiencies as compared with other iridium complex based OLEDs in the literature, which result from efficient trapping and radiative relaxation of singlet and triplet excitons formed in electroluminescent process. Devices with Ir(bpb)2(pic) shows the better performance in terms of brightness and power efficiency with brightness of 130301 cd/m2 at 14.5 V and 26.2 lm/W at 5.5 V, respectively.