汗液采样、传感、能量收集和数据显示技术在柔性汗液电子学方面的最新进展

Soft science Pub Date : 2024-05-20 DOI:10.20517/ss.2024.04
Guangyao Zhao, Zhiyuan Li, Xingcan Huang, Qiang Zhang, Yiming Liu, Xinge Yu
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引用次数: 0

摘要

汗液中含有多种生物标志物,可以反映个人的健康状况。汗液监测的前沿研究主要集中在传感基本参数,即在受控实验室环境下的出汗率和单一电解质失衡。然而,最近的研究表明,汗液在全面显示健康状况、及时发出安全警报和能量收集等方面具有丰富的生物标志物潜力。可穿戴柔性电子设备的进步实现了对多种汗液成分的连续、实时、无创检测,提供了分子层面的人体生理和心理信息;此外,柔性电子设备的高效汗液提取技术促进了其在能量收集方面的应用,有助于推动柔性汗液平台的发展。本综述从汗液采样方法、汗液传感器、汗液能量采集器和汗液数据显示方法四个方面全面探讨了基于汗液的柔性电子技术。首先,从汗液采样、传感和数据分析方面讨论了传统的汗液平台。然后,对比传统的汗液采集方法,讨论了可穿戴汗液采样方法的发展。之后,总结了用于监测各种汗液分析物(如汗液量、葡萄糖、乳酸和尿酸水平)的汗液生物传感器的最新进展。随后,本综述还重点介绍了汗液能量收集器在汗液激活电池和生物燃料电池方面的最新进展和潜在价值。此外,还提出了多种数据显示方法,如比色技术、发光二极管、致动器等,以实现对健康状况的准确反馈。最后,本综述总结了当前汗液生物电子系统在实际应用中所面临的主要挑战,并对这一前景广阔的领域的未来发展提出了展望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recent advances of sweat sampling, sensing, energy-harvesting and data-display toward flexible sweat electronics
Sweat contains diverse types of biomarkers that can mirror an individual’s health condition. The forefront research of sweat monitoring primarily focuses on sensing basic parameters, i.e., sweat rate and single electrolyte imbalances in controlled laboratory settings. However, recent works show the potential of sweat for the rich biomarkers in aspects of comprehensive health status display, timely safety alarming, and energy harvesting. The advances in wearable flexible electronics enable continuous, real-time, noninvasive detection of multiple sweat components, providing molecular-level insights into human physiology and psychology information; additionally, the efficient sweat extraction technologies of flexible electronics promote its application in energy harvesting, contributing to advancing a flexible sweat platform. This review comprehensively explores flexible sweat-based electronics, encompassing four key aspects: sweat sampling methods, sweat-based sensors, sweat-based energy harvesters, and sweat data display methods. Firstly, the traditional sweat-based platform is discussed in sweat sampling, sensing, and data analysis. Then, the development of wearable sweat sampling methods is discussed with a comparison of the traditional sweat collection methods. After that, the recent advances in sweat-based biosensors for monitoring diverse sweat analytes, such as the perspiration volume, glucose, lactate, and uric acid levels, are summarized. Subsequently, this review also highlights the recent progress and potential value of sweat-based energy harvesters in sweat-activated batteries and bio-fuel cells. Furthermore, multiple data display methods are proposed to achieve accurate feedback on health status, such as colorimetric techniques, light-emitting diodes, actuators, etc. Finally, this review concludes the main current challenges faced in practical applications of sweat-based bioelectronic systems and proposes a vision for the future evolution of this promising field.
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