Guo Haorun, Lin Yong, Gu Shaoqiang, Hu Gaohua, Wang Qian, Bai Chong, Sun Yuping, Yang Cheng, Fang Ting, Chen Xing, Li Dongchan, Kong Desheng
College of Chemical Engineering and Technology, Engineering Research Center of Seawater Utilization Technology of Ministry of Education, State Key Laboratory of Reliability and Intelligence of Electrical Equipment, Hebei University of Technology, Tianjin 300130, China.
College of Engineering and Applied Sciences, State Key Laboratory of Analytical Chemistry for Life Science, and Jiangsu Key Laboratory of Artificial Functional Materials, Nanjing University, Nanjing 210023, China.
Nano Lett. 2024 May 15;24(19):5904-5912. doi: 10.1021/acs.nanolett.4c01332. Epub 2024 May 3.
Stretchable electroluminescent devices represent an emerging optoelectronic technology for future wearables. However, their typical construction on sub-millimeter-thick elastomers has limited moisture permeability, leading to discomfort during long-term skin attachment. Although breathable textile displays may partially address this issue, they often have distinct visual appearances with discrete emissions from fibers or fiber junctions. This study introduces a convenient procedure to create stretchable, permeable displays with continuous luminous patterns. The design utilizes ultrathin nanocomposite devices embedded in a porous elastomeric microfoam to achieve high moisture permeability. These displays also exhibit excellent deformability, low-voltage operation, and excellent durability. Additionally, the device is decorated with fluorinated silica nanoparticles to achieve self-cleaning and washable capabilities. The practical implementation of these nanocomposite devices is demonstrated by creating an epidermal counter display that allows intimate integration with the human body. These developments provide an effective design of stretchable and breathable displays for comfortable wearing.
可拉伸电致发光器件是一种用于未来可穿戴设备的新兴光电技术。然而,它们在亚毫米厚的弹性体上的典型构造具有有限的透湿性,导致长期附着在皮肤上时会产生不适感。尽管透气的纺织品显示器可能部分解决了这个问题,但它们通常具有独特的视觉外观,纤维或纤维连接处会有离散的发光。本研究介绍了一种创建具有连续发光图案的可拉伸、透气显示器的简便方法。该设计利用嵌入多孔弹性体微泡沫中的超薄纳米复合器件来实现高透湿性。这些显示器还具有出色的可变形性、低电压操作和出色的耐久性。此外,该器件用氟化二氧化硅纳米颗粒进行装饰,以实现自清洁和可清洗的功能。通过创建一个能够与人体紧密集成的表皮计数器显示器,展示了这些纳米复合器件的实际应用。这些进展为舒适佩戴提供了一种可拉伸且透气的显示器的有效设计。
