We introduced new fabrication method and a novel doped graded-dual-host emitter structure (G-EML) for OLED by utilizing a conventional research thermal-evaporation coater. NPB/Alq3 doped with C545T and NPB/BAlq doped with EY53 and CBP/EPH31 doped with Ir(ppy)3 were three pairs of host and guest materials that were selected to demonstrate the advantages of the doped graded emitting layer. By NPB/Alq3 doped with C545T: Compared with conventional bi-layer (B-EML) and mixed-emission (M-EML) structures, the current efficiency roll-off in G-EML was slower than M-EML. And the lifetime was 1.8 times than the B-EML. By NPB/BAlq doped with EY53: The concentration quenching was found in conventional G-EML device. We report an improved doped graded-emission layered structure (IG-EML) which the lifetime was 4.8 times for B-EML device and did not compromise its current efficiency. By CBP/EPH31 doped with Ir(ppy)3: Using TCTA to be the blocking layer could enhance the current efficiency, but the device lifetime would drop. The G-EML device could enhance the current efficiency without blocking layer, and the lifetime was also good.