TITLE:
Dependence Study of Optoelectronics Performance on Carefully Differed LiF Thickness in Alq3 Based OLEDs
AUTHORS:
Shengxun Su, Changxiao Pan, Xi Luo, Wei Chen, Jiarong Lian
KEYWORDS:
OLEDs; Thickness; LiF; Chemical Interaction; Luminescent Quenching
JOURNAL NAME:
Optics and Photonics Journal,
Vol.3 No.2B,
July
22,
2013
ABSTRACT:
The effect of LiF thickness on the electrical and
luminescent characteristics in OLEDs has been studied by carefully varying
thickness value range from 0 nm to 1.2 nm. It’s
interesting to find that the device with 0.2 nm LiF layer performs
the largest current and comparative lower luminescent efficiency, while the one
with 0.6 nm LiF performs another current peak (lower than that of device with
0.2 nm LiF layer) but the highest luminescent efficiency in all devices.
Here the much enhanced electron injection and destructive efficiency for 0.2 nm LiF device
are understood by the chemical interaction model at cathode interface, while
the fairly increased electron injection and much improved efficiency for 0.6 nm LiF device
would be interpreted by other mechanisms, and LiF plays a protective part in
preventing the deposition-induce photoluminescence from quenching by Al cathode.