Microfluidics-derived Microfibers in Flexible Bioelectronics

Chao Yang, Xingyu Hou, Li Zhang
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Abstract

Flexible electronics have attracted extensive attention across a wide range of fields due to their potential for preventive medicine and early disease detection. Microfiber-based textiles, encountered in everyday life, have emerged as promising platforms with integrated sensing capabilities. Microfluidic technology has been recognized as a promising avenue for the development of flexible conductive microfibers and has made significant achievements. In this review, we provide a comprehensive overview of the state-of-the-art advancements in microfiber-based flexible electronics fabricated using microfluidic platforms. Firstly, the fundamental strategies of the microfluidic fabrication of conductive microfibers with different structures and morphologies are introduced. Subsequently, attention is then directed towards the diverse applications of these microfibers in bioelectronics. Finally, we offer a forward-looking perspective on the future challenges about microfluidic-derived microfibers in flexible bioelectronics.
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柔性生物电子学中的微流体衍生微纤维
柔性电子器件因其在预防医学和早期疾病检测方面的潜力,已在多个领域引起广泛关注。日常生活中常见的基于微纤维的纺织品已成为具有集成传感功能的前景广阔的平台。微流体技术已被视为开发柔性导电微纤维的一条大有可为的途径,并已取得了重大成就。在本综述中,我们将全面概述利用微流体平台制造基于微纤维的柔性电子器件的最新进展。首先,介绍了利用微流体技术制造具有不同结构和形态的导电微纤维的基本策略。随后,介绍了这些微纤维在生物电子学中的各种应用。最后,我们以前瞻性的视角探讨了微流体衍生微纤维在柔性生物电子学中的未来挑战。
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