Wearable sensing technologies have received considerable interests due to the promising use for real‐time monitoring of health conditions. The sensing part is typically made into a thin film that guarantees high flexibility with different sensing materials as functional units at different locations. However, a thin‐film sensor easily breaks during use because it cannot adapt to the soft or irregular body surfaces, and, moreover, it is not breathable or comfortable for the wearable application. Herein, a new and general strategy of making electrochemical fabric from sensing fiber units is reported. These units efficiently detect a variety of physiological signals such as glucose, Na⁺, K⁺, Ca²⁺, and pH. The electrochemical fabric is highly flexible and maintains structural integrity and detection ability under repeated deformations, including bending and twisting. They demonstrate the capacity to monitor health conditions of human body in real time with high efficacy.

中文翻译：

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将传感纤维编织到电化学织物中以进行实时健康监测

可穿戴式传感技术由于有望用于健康状况的实时监控而受到了广泛的关注。感测部分通常制成薄膜，以确保不同位置的功能单元使用不同的感测材料时具有较高的灵活性。但是，薄膜传感器在使用过程中很容易破裂，因为它无法适应柔软或不规则的身体表面，此外，它在穿戴式应用中也不透气或不舒适。在此，报道了一种由传感纤维单元制造电化学织物的新的通用策略。这些单元可有效检测各种生理信号，例如葡萄糖，Na ⁺，K ⁺，Ca ²⁺和pH。电化学织物具有很高的柔韧性，并在反复变形（包括弯曲和扭曲）下保持结构的完整性和检测能力。它们显示了实时监控人体健康状况的能力。