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Printed Organic Light-Emitting Diodes on Fabric with Roll-to-Roll Sputtered ITO Anode and Poly(vinyl alcohol) Planarization Layer

材料科学 化学机械平面化 图层(电子) 有机发光二极管 乙烯醇 复合材料 薄板电阻 阳极 光电子学 基质(水族馆) 电极 聚合物 化学 物理化学 海洋学 地质学
作者
Sunyoung Sohn,Seongju Kim,Jae Won Shim,Sang Kooun Jung,Sungjune Jung
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:13 (24): 28521-28528 被引量:10
标识
DOI:10.1021/acsami.1c02681
摘要

Electronic textiles, which are a combination of fabrics and electronics, can help realize wearable electronic devices by changing the rigidity of these textiles. We demonstrate organic light-emitting diodes (OLEDs) by directly printing the emitting material on fabric substrates using the nozzle-printing technique. Printing the emitting material directly on a fabric substrate with a rough surface is difficult. To address this, we introduce a planarization layer by using a synthesized 3.5 wt % poly(vinyl alcohol) (PVA) solution. The sputtered ITO anode with the thermally annealed PVA planarization layer on a fabric substrate achieves a low sheet resistance in the range of 60–80 Ω/sq, whereas the ITO electrode without a PVA layer exhibits high sheet resistance values of 10–25 kΩ/sq. This result is because the thermally annealed PVA layer on the fabric surface has a uniform surface morphology and a water contact angle as high as 96°, thus acting as a protective layer with a waterproofing effect; in contrast, the water is completely absorbed on the rough surface without a PVA layer. The fabric-based OLEDs with a thermally annealed PVA layer exhibit a lower turn-on voltage of 3 V and higher luminance values of 5346 cd/m2 at 8 V compared with the devices without a PVA layer (7 V and 3622 cd/m2) at 18 V. These fabric-based OLEDs with a PVA planarization layer can be produced by the nozzle-printing process and can achieve selective patterning as well as direct printing of the emitting material and ITO sputtering on a fabric substrate; furthermore, they emit well even when it bent into a circle with a radius of 1 cm.

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