Gold Nanowire Sponge Electrochemistry for Permeable Wearable Sweat Analysis Comfortably and Wirelessly

IF 8.2 1区 化学 Q1 CHEMISTRY, ANALYTICAL
Fenge Lin, David Vera Anaya, Shu Gong, Lim Wei Yap, Yan Lu, Zijun Yong, Wenlong Cheng
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Abstract

Electrochemistry-based wearable and wireless sweat analysis is emerging as a promising noninvasive method for real-time health monitoring by tracking chemical and biological markers without the need for invasive blood sampling. It offers the potential to remotely monitor human sweat conditions in relation to metabolic health, stress, and electrolyte balance, which have implications for athletes, patients with chronic conditions, and individuals for the early detection and management of health issues. The state-of-the-art mainstream technology is dominated by the concept of a wearable microfluidic chip, typically based on elastomeric PDMS. While outstanding sensing performance can be realized, the design suffers from the poor permeability of PDMS, which could cause skin redness or irritation. Here, we introduce an omnidirectionally permeable, deformable, and wearable sweat analysis system based on gold nanowire sponges. We demonstrate the concept of all-in-one soft sponge electrochemistry, where the working, reference, and counter electrodes and electrolytes are all integrated within the sponge matrix. The intrinsic porosity of sponge in conjunction with vertically aligned gold nanowire electrodes gives rise to a high electrochemically active surface area of ∼67 cm2. Remarkably, this all-in-one sponge-based electrochemical system exhibited stable performance under a pressure of 10 kPa and 300% omnidirectional strain. The gold sponge biosensing electrodes could be sandwiched between two biocompatible sweat pads, which can serve as natural sweat collection and outflow layers. This naturally biocompatible and permeable platform can be integrated with wireless communication circuits, leading to a wireless sweat analysis system for the real-time monitoring of glucose, lactate, and pH during exercise.

Abstract Image

利用金纳米线海绵电化学技术,实现可穿戴式汗液分析的舒适性和无线性
基于电化学原理的可穿戴和无线汗液分析正在成为一种很有前途的非侵入性实时健康监测方法,它可以跟踪化学和生物标记物,而无需进行侵入性血液采样。它为远程监测人体汗液与代谢健康、压力和电解质平衡的关系提供了可能,这对运动员、慢性病患者和个人早期检测和管理健康问题具有重要意义。最先进的主流技术以可穿戴微流控芯片概念为主导,该芯片通常以弹性聚偏二甲基硅氧烷为基础。虽然可以实现出色的传感性能,但这种设计存在 PDMS 渗透性差的问题,可能会引起皮肤发红或刺激。在此,我们介绍一种基于金纳米线海绵的全向渗透、可变形和可穿戴的汗液分析系统。我们展示了一体化软海绵电化学的概念,即工作电极、参比电极、对电极和电解质都集成在海绵基质中。海绵固有的多孔性与垂直排列的金纳米线电极相结合,产生了 ∼67 cm2 的高电化学活性表面积。值得注意的是,这种基于海绵的一体化电化学系统在 10 kPa 的压力和 300% 的全向应变下表现出稳定的性能。金海绵生物传感电极可夹在两个生物相容性汗垫之间,作为天然的汗液收集和流出层。这种天然生物相容性和渗透性平台可与无线通信电路集成,从而形成一个无线汗液分析系统,用于在运动过程中实时监测葡萄糖、乳酸和 pH 值。
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来源期刊
ACS Sensors
ACS Sensors Chemical Engineering-Bioengineering
CiteScore
14.50
自引率
3.40%
发文量
372
期刊介绍: ACS Sensors is a peer-reviewed research journal that focuses on the dissemination of new and original knowledge in the field of sensor science, particularly those that selectively sense chemical or biological species or processes. The journal covers a broad range of topics, including but not limited to biosensors, chemical sensors, gas sensors, intracellular sensors, single molecule sensors, cell chips, and microfluidic devices. It aims to publish articles that address conceptual advances in sensing technology applicable to various types of analytes or application papers that report on the use of existing sensing concepts in new ways or for new analytes.
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