Controllable and efficient hole-injection layers with molybdenum oxide units by solution-processed procedure for OLEDs

Abstract

Since the low work function of ITO, introducing hole injection layer (HIL) with controllable and efficient property is an effective way to improve the performance of organic light-emitting diodes (OLEDs). In this work, films, containing molybdenum oxide units by employing H 2 O 2 treated ammonium phosphomolybdate (AMP) as precursors, are fabricated through solution-processed procedure. The hole injection property of the HILs can be modulated by the gap-state density, which is negatively correlated with the molar ratio of AMP/H 2 O 2 . Green fluorescent and phosphorescent OLEDs based on the HILs are endowed with reduced turn-on voltage from 3.4 to 2.5 V and 4.1 to 3.4 V, respectively. Furthermore, fluorescent OLEDs based on the HIL with AMP/H 2 O 2 of 1:14 show a maximum current efficiency of 6.82 cd/A, 1.2-flod higher than that of PEDOT:PSS based devices. This method opens up a new path to obtain HIL with adjustable property in mild prepare condition for various electroluminescent devices. • Controllable HILs with MoO 3 units were fabricated by solution-processed procedure. • Hole injection property of HILs was modulated by gap-state density, negatively correlated with AMP/H 2 O 2 molar ratio. • Green fluorescent and phosphorescent OLEDs based on the HILs were endowed with low turn-on voltage and high efficiency.