What question did this study set out to answer?

To enhance the response speed, sensitivity, and stability of flexible humidity sensors using a novel composite metal fiber approach.

February 26, 2026Open Access

复合金属纤维基高响应柔性湿度传感器制备

Key Points

To enhance the response speed, sensitivity, and stability of flexible humidity sensors using a novel composite metal fiber approach.
Innovative manufacturing of Cu/Ag composite metal structures using electrospinning.
Assessment of sensor performance in various humidity conditions and temperatures.
Measurement of response times and stability under prolonged use.
Cu/Ag composite fibers showed a resistivity of 4 kΩ/cm.
Achieved a linearity of R²=0.99 in humidity detection.
Rapid response times of 1.1 seconds for adsorption and 2.4 seconds for desorption were observed.
Stability tests indicated less than 4.5% drift after 120 minutes at 100°C and less than 3% drift at 85% relative humidity.

Abstract

针对传统柔性湿度传感器普遍存在的响应速度受限、灵敏性与稳定性难以兼顾的难题，本文提出基于金属氨络合配位复合金属纤维基高响应柔性湿度传感器电纺直写方法，完成Cu/Ag复合金属敏感结构的创新制造，双金属优势互补既规避材料固有缺陷，也强化了高响应性能。烧结后的Cu/Ag复合金属纤维电阻率仅为4 kΩ/cm；Cu/Ag复合金属湿度传感器快速响应与精准检测能力优异，线性度高达R²=0.99，且吸附响应时间仅1.1 s、脱附响应时间仅2.4 s，迟滞量最低为2.1%；传感器稳定性强，在100 ℃高温环境持续工作120 min后电阻漂移仅<4.5%，而在相对湿度为85%的高湿环境下持续工作120 min后漂移仅<3%。本研究兼具工艺可控性与低成本优势，不仅满足高性能柔性湿度传感对高响应性的核心需求，更为环境监测、可穿戴健康设备领域的湿敏器件开发提供关键技术支撑。

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Cite This Study

Huatan et al. (Wed,) studied this question.

synapsesocial.com/papers/699fe2eb95ddcd3a253e6728 https://doi.org/https://doi.org/10.37188/ope.20253324.3889

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