Stable blue phosphorescent organic light emitting devices

What is claimed is: 1. A method depositing an emissive layer for an organic light emitting device, comprising: providing a source of a phosphorescent emissive dopant having a peak emissive wavelength less than 500 nm in a sublimation crucible having an original charge, wherein the phosphorescent emissive dopant comprises a cyclometallated N,C-donor imidazophenanthridine ligand comprising at least one 2,2,2 trialkylethyl substituent; the source has a purity in excess of 99.5% as determined by high pressure liquid chromatography; the source further has a combined concentration of halide and metal impurities below 100 ppm; and the source being sufficiently pure that a residue corresponding to less than 5 wt % of the original charge in the sublimation crucible remains after the original charge is decreased; and depositing the phosphorescent emissive dopant via sublimation, along with a host, wherein the phosphorescent emissive dopant is deposited in an environment having less than 10 ppm oxygen, and in the near absence of light having a wavelength less than 600 nm. 2. The method of claim 1 , wherein the phosphorescent emissive dopant is deposited in an environment having less than 10 ppm oxygen, and in the near absence of light having a wavelength less than 600 nm. 3. The method of claim 1 , wherein the phosphorescent emissive dopant is deposited in a vacuum system having a pressure level less than 1×10 −8 Torr. 4. The method of claim 1 , wherein the phosphorescent emissive dopant is deposited in a vacuum system having a pressure level in the range of about 1×10 −8 Torr to 1×10 −12 Torr. 5. The method of claim 1 , wherein the phosphorescent emissive dopant is deposited in a vacuum system having a pressure level in the range of about 1×10 −9 Torr to 1×10 −12 Torr. 6. The method of claim 5 , wherein the phosphorescent emissive dopant is deposited in a vacuum system having a pressure level in the range of about 1×10 −8 Torr to about 1×10 −12 Torr. 7. The method of claim 1 , wherein the phosphorescent emissive dopant is deposited in a vacuum system having a pressure level in the range of about 1×10 −10 Torr to 1×10 −12 Torr.