织物
有机发光二极管
材料科学
基质(水族馆)
水分
平坦度(宇宙学)
灵活性(工程)
可穿戴技术
复合材料
纳米技术
柔性电子器件
可穿戴计算机
数码产品
服装
机械工程
微尺度化学
光电子学
纳米纤维
静电纺丝
作者
Yunha Na,So Yeong Jeong,Seung Jin Oh,Ha‐Eun Cho,Seungyeop Choi,Ki Suk Kang,Yongmin Jeon,Taek‐Soo Kim,Kyung Cheol Choi
标识
DOI:10.1021/acsaelm.5c01199
摘要
Textile-based OLEDs (textile OLEDs) are emerging as free-form electronics capable of showing their versatile performance without temporal or spatial limitations. They can improve user convenience and human quality of life in the form of daily clothes for various uses: real-time information transfer, fashion, biomedical, and daily health-care applications. The most important challenge to realizing textile OLEDs is developing a multifunctional textile substrate that possesses cloth-like flexibility and softness, moisture impermeability to protect the sensitive OLED, and flatness for stable OLED growth. In this work, a soft as cloth, flat on the angstrom scale (Å), and moisture impermeable textile substrate was developed by introducing functional thin-film combination with inorganic and organic layers that prevents moisture and oxygen penetration. In addition, in-depth mechanical analyses of textile substrates were conducted according to the direction of the woven structure with account for the asymmetry of the general textile structure. Consequently, a mechanical analysis of textile directionality was primally presented, and based on this analysis, environmentally reliable and flexible three-colored (red, green, and blue) OLEDs were realized.
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