Conjugated Polyelectrolyte Hybridized ZnO Nanoparticles as a Cathode Interfacial Layer for Efficient Polymer Light‐Emitting Diodes |
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Authors: | Kyungmok Kim Jihae Choi Dongchan Lee Youngsun Kim Sang Hun Cheong Duk Young Jeon |
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Affiliation: | 1. Department of Materials Science and Engineering, Korea Advanced Institute of Science and Technology (KAIST), Yuseong‐gu, Daejeon, South Korea;2. Center for Theragnosis, Korea Institute of Science and Technology (KIST), Seongbuk‐gu, Seoul, South Korea |
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Abstract: | Alkoxy side‐chain tethered polyfluorene conjugated polyelectrolyte (CPE), poly[(9,9‐bis((8‐(3‐methyl‐1‐imidazolium)octyl)‐2,7‐fluorene)‐alt‐(9,9‐bis(2‐(2‐methoxyethoxy)ethyl)‐fluorene)] dibromide (F8imFO4), is utilized to obtain CPE‐hybridized ZnO nanoparticles (NPs) (CPE:ZnO hybrid NPs). The surface defects of ZnO NPs are passivated through coordination interactions with the oxygen atoms of alkoxy side‐chains and the bromide anions of ionic pendent groups from F8imFO4 to the oxygen vacancies of ZnO NPs, and thereby the fluorescence quenching at the interface of yellow‐emitting poly(p‐phenylene vinylene)/CPE:ZnO hybrid NPs is significantly reduced at the CPE concentration of 4.5 wt%. Yellow‐emitting polymer light‐emitting diodes (PLEDs) with CPE(4.5 wt%):ZnO hybrid NPs as a cathode interfacial layer show the highest device efficiencies of 11.7 cd A?1 at 5.2 V and 8.6 lm W?1 at 3.8 V compared to the ZnO NP only (4.8 cd A?1 at 7 V and 2.2 lm W?1 at 6.6 V) or CPE only (7.3 cd A?1 at 5.2 V and 4.9 lm W?1 at 4.2 V) devices. The results suggest here that the CPE:ZnO hybrid NPs has a great potential to improve the device performance of organic electronics. |
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Keywords: | zinc oxide nanoparticles conjugated polyelectrolytes cathode interfacial layers organic– inorganic hybrid materials polymer light‐emitting diodes |
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