Polymer light-emitting displays with printed cathodes

High-resolution passive-matrix polymer light-emitting displays with printed cathodes are achieved by combining delicate cathode deposition and multifunctional buffer layer fabrication. Unlike other printing methods and printed materials, ink-jetting conducting nano-particles as cathode can provide h...

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Bibliographic Details
Published in:Surface & coatings technology 2019-01, Vol.358, p.228-234
Main Authors: Zheng, Hua, Zheng, Yina, Wang, Juanhong, Wang, Jian, Zhang, Geng, Zhang, Shaoqiao, Liu, Minxia, Hu, Jun, Li, Yi, Hu, Yaohua, Zhang, Wei
Format: Article
Language:English
Subjects:
Buffer layer
Buffer layers
Cathodes
Color
Crosslinking
Display
Flat panel displays
High resolution
High vacuum
Leakage current
Light emitting diodes
PLED
Polymers
Printed cathode
Silver
Vacuum thermal evaporation
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Summary:High-resolution passive-matrix polymer light-emitting displays with printed cathodes are achieved by combining delicate cathode deposition and multifunctional buffer layer fabrication. Unlike other printing methods and printed materials, ink-jetting conducting nano-particles as cathode can provide high-resolution cathode patterns and excellent continuity along the fine cathode lines without any mechanical pressure on the organic layers. The buffer layer between the printed cathode and the organic active layers, was fabricated by mixing the water/alcohol-soluble polymer poly[9,9-bis(3′-(N,N-dimethylamino)propyl)-2,7-fluorene-alt-2,7-(9,9-dioctylfluorene)] (PFNR2) and a curable epoxy adhesive. It offers the functions of solvent-proof, electron-injection, and proper affinity with the cathode ink. While improving the performance of devices, especially blocking the leakage current greatly, the cross-linked buffer layer also induces a novel phenomenon of ‘linear η-J plot’, which can be derived to interesting and realistic results. Red, green, and blue monochrome and full-color polymer light-emitting displays with a content format of 96 × 3 × 64 show neither dead pixels nor dead lines. Under optimized steps of curing, the nano silver ink forms continuous, defect-free, and low-resistance cathode rows without any distortion. The red, green, and blue displays exhibit the current efficiencies of 0.62, 4.38 and 0.93 cd/A, and CIE color coordinates of (0.63, 0.37), (0.39, 0.57) and (0.18, 0.16), respectively. The cathode printing technique removes the need of high vacuum for thermal evaporation of the cathode metal, which could lead to the industrial roll-to-roll process to manufacture the flat panel displays. •Passive-matrix polymer light-emitting displays with printed cathodes are achieved.•Buffer layer offers solvent-proof, electron-injection, and proper affinity with ink.•The nano silver ink forms continuous, defect-free, and low-resistance cathode rows.•The cross-linked buffer layer induces a novel phenomenon of ‘linear η-J plot’.
ISSN:0257-8972
1879-3347
DOI:10.1016/j.surfcoat.2018.11.041