Balance of surface energy difference between wetting and dewetting regions for patterning solution-processed organic light-emitting diode

Solution-processed organic light-emitting diodes (S-OLEDs) are potential candidates for next-generation wearable electronics due to the simple processing capability, high scalability, and mechanical flexibility. As a demand for the high-resolution OLEDs is given rise to realize the natural images in...

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Bibliographic Details
Published in:Organic electronics 2021-08, Vol.95, p.106203, Article 106203
Main Authors: Park, Hea-Lim, Kang, Sujie, Suh, Jeng-Hun, Lee, Sin-Doo, Lee, Sin-Hyung
Format: Article
Language:English
Subjects:
High-resolution pattern
Self-organization
Solution-processed organic light-emitting diode
Surface energy
Wetting property
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Summary:Solution-processed organic light-emitting diodes (S-OLEDs) are potential candidates for next-generation wearable electronics due to the simple processing capability, high scalability, and mechanical flexibility. As a demand for the high-resolution OLEDs is given rise to realize the natural images in the eyewear displays, developing efficient methods for producing solution-processed organic patterns has been vital to achieve the practical S-OLEDs. Despite considerable effort to develop the fine organic patterns, an incomplete understanding of the effect of the surface wetting nature on the precise pattern formation inevitably restricts the resolution of the S-OLEDs. Herein, we present the physical picture of forming solution-processed high-resolution organic patterns using wetting phenomena. For macroscale patterns larger than 50 μm, the surface energy difference between the wetting and dewetting regions are critical for governing the pattern fidelity. In contrast, the microscale patterns with a feature size lower than 10 μm are produced by the subtle interplay between the surface energy difference and wettability following the Cassie state of the substrate. High-resolution line patterns with a width of 5 μm of the S-OLED are fabricated by balancing the surface energy difference and wettability of the substrate. The patterned S-OLED exhibits a high-pattern fidelity and stable electro-optical performance without any detrimental effects. [Display omitted] •A physical picture of forming organic patterns through self-organization is explored.•Surface energy difference between wetting and dewetting regions is critical for pattern fidelity.•A phase diagram for producing high-resolution organic patterns through a solution process is described.•High resolution patterns of organic light-emitting diodes are fabricated by balancing surface energy.
ISSN:1566-1199
1878-5530
DOI:10.1016/j.orgel.2021.106203