用于人体汗液多离子检测的无线无源织物传感器。

IF 10.5 1区 生物学 Q1 BIOPHYSICS
Zenghao Xia , Fabo Guo , Xueyin Chen , Fuchao Zhang , Zhize Zhang , Jianfeng Li , Liang Huang , Zhen Xu , Xin Ming , Yuxin Peng
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引用次数: 0

摘要

体液中含有与人体健康密切相关的关键生物标志物。分析它们的成分提供了有价值的健康相关见解,是早期诊断和健康评估的关键途径。然而,传统的基于数字电路的可穿戴生化传感解决方案存在制造工艺复杂、佩戴舒适性差、长期供电困难等问题,限制了其在家庭护理和慢性疾病监测中的应用。本工作设计了一种多通道、无电池、可穿戴的织物生化传感器。传感织物在磁场环境中激活,将生化信息转换成电信号,调制谐振电路参数,最终改变电路的谐振频率。通过运动时的汗液监测,验证织物生化传感器的多离子传感性能。所提出的织物传感器具有优异的灵敏度、可靠性和最小的跨通道耦合,为实时和常规监测体液提供了一个有前途的解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Wireless passive fabric sensor for multi-ion detection in human sweat
Bodily fluids harbor critical biomarkers that are closely associated with human health. Analyzing their constituents provides valuable health-related insights, serving as a pivotal way for early diagnosis and health assessment. However, traditional wearable biochemical sensing solutions based on digital circuits face issues such as complex manufacturing processes, poor wearing comfort, and difficulties in long-term power supply, thereby limiting their utility in home care and chronic disease monitoring. This work designs a multi-channel, battery-free and wearable fabric biochemical sensor. Activated within magnetic field environment, the sensing fabric transduces biochemical information into electric signals that modulate the resonant circuit parameters, finally shifting the resonant frequency of the circuit. The multiple-ion sensing performance of fabric biochemical sensor was validated through sweat monitoring during physical exercise. The proposed fabric sensor has excellent sensitivity, reliability and minimal cross-channel coupling, offering a promising solution for real-time and routine monitoring of body fluids.
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来源期刊
Biosensors and Bioelectronics
Biosensors and Bioelectronics 工程技术-电化学
CiteScore
20.80
自引率
7.10%
发文量
1006
审稿时长
29 days
期刊介绍: Biosensors & Bioelectronics, along with its open access companion journal Biosensors & Bioelectronics: X, is the leading international publication in the field of biosensors and bioelectronics. It covers research, design, development, and application of biosensors, which are analytical devices incorporating biological materials with physicochemical transducers. These devices, including sensors, DNA chips, electronic noses, and lab-on-a-chip, produce digital signals proportional to specific analytes. Examples include immunosensors and enzyme-based biosensors, applied in various fields such as medicine, environmental monitoring, and food industry. The journal also focuses on molecular and supramolecular structures for enhancing device performance.
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