In this thesis, we study the degradation phenomena in a mixed-host (MH) organic light-emitting device (OLED) by using ultra-thin probe method. We observed spectral shift and then stable during the aging process, which results from materials decay. Non-uniform materials degradation with time at different positions of the MH emitting layer (EML) is observed by using photoluminescence measurement to define the intrinsic decay of materials. The decay rate exhibits similar trends to the recombination distribution in the MH-EML, which means degradation is a heat-assisted process. Besides, we used a novel material, 1,1'-bis(2-phenyl-1,3,4-oxadiazol-5-yl) ferrocene (Fe-OXD), as electron transport layer (ETL) material which reduces the turn-on voltage by 2.2V at the current density 25mA/cm2 as compared to the conventional OLED. ETL and hole-transport layer materials are used as the host of the EML in a red phosphorescent, which shows a high efficiency of 14.3cd/A and a 2.5V lower driving voltage at 14mA/cm2.