Abstract

The influence of evaporation temperatures on the electronic structures of molybdenum oxide (MoOx) films and the electrical properties of organic light emitting diodes were investigated. MoOx films evaporated at a high temperature and a high deposition rate are close to a stoichiometric phase, but become less effective when they are used as a hole injection layer. However, when MoOx is evaporated at a lower temperature and a slower rate, there are large amounts of defect-related states present in the forbidden gap, which make the films behave like a high work function conductor and an effective hole injection layer.