Multimodal, multipoint sensing and wearability are the impending pursuits of next‐generation flexible electronics. Electronic textiles (e‐textile), known as the convergence of traditional textile technology and burgeoning electrical engineering, have been rapidly exploited evolving fields in electronics, light‐emitting diodes, energy harvesting, and storage devices. Benefiting from their mechanical compliance, comfortable, lightweight, and economically viable features, e‐textiles are attractive for wearing on the soft and curved human body. This study fabricates a textile‐based stretchable sensor by using an electronic dyeing method and the sensor is used for human motion monitoring and analysis. With specific precursor selection and texture regulation, the conductive textile shows good flexibility and adaptable strain–electric response. Combined with the commendable mechanical performance and high durability, the electronic textile sensor can capture and monitor various human activities and distinguish similar motions, which have great potential in biomonitoring, soft co‐robotics, and human–machine interaction.

中文翻译：

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电子纺织品的染色方法用于多分辨物理量监测

多模式，多点传感和可穿戴性是下一代柔性电子产品迫在眉睫的追求。电子纺织品（电子纺织品），被称为传统纺织品技术和新兴的电子工程学的融合，已经在电子，发光二极管，能量收集和存储设备等领域迅速发展。得益于其机械顺应性，舒适，轻便和经济上可行的功能，电子纺织品非常适合穿着在柔软弯曲的人体上。这项研究通过使用电子染色方法制造了一种基于纺织品的可拉伸传感器，该传感器用于人体运动的监测和分析。通过特定的前体选择和质地调节，导电纺织品显示出良好的柔韧性和适应性的应变电响应。