| Literature DB >> 31529962 |
Chae Young Lee1, Nagarjuna Naik Mude1, Raju Lampande1, Kwan Ju Eun1, Ji Eun Yeom1, Hyung Sik Choi2, Sang Hyun Sohn2, Jun Mo Yoo2, Jang Hyuk Kwon1.
Abstract
Here, we report an efficient inverted red indium phosphide (InP) comprising QD (InP/ZnSe/ZnS, core/shell structure) light-emitting diode (QLED) by modulating an interfacial contact between the electron transport layer and emissive InP-QDs and applying self-aging approach. The red InP-QLED with optimized interfacial contact exhibits a significant improvement in maximum external quantum efficiency and current efficiency from 4.42 to 10.2% and 4.70 to 10.8 cd/A, respectively, after 69 days of self-aging, which is an almost 2.3-fold improvement compared to the fresh device. The analysis indicates the consecutive reduction in electron injection and accumulation in the emissive QD due to changes in the conduction band minimum of ZnMgO (0.1 eV after 10 days of storage) through a downward vacuum-level shift according to the aging times. During the device aging periods, the oxygen vacancy of ZnMgO reduces, which leads to lower the conductivity of ZnMgO. As a result, charge balance of the device is improved with the suppression of exciton quenching at the interface of ZnMgO and InP-QD.Entities:
Keywords: cadmium-free quantum dots; charge balance; charge carrier injection layers; inverted structure; light-emitting diode
Year: 2019 PMID: 31529962 DOI: 10.1021/acsami.9b12514
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229