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Adhesion‐Free Thin‐Film‐Like Curvature Sensors Integrated on Flexible and Wearable Electronics for Monitoring Bending of Joints and Various Body Gestures
Author(s) -
Liu Hao,
Zhao Hongyu,
Li Shuang,
Hu Jianqiao,
Zheng Xinran,
Li Rui,
Chen Yuli,
Su Yewang
Publication year - 2019
Publication title -
advanced materials technologies
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.184
H-Index - 42
ISSN - 2365-709X
DOI - 10.1002/admt.201800327
Subject(s) - curvature , bending , electronics , wearable computer , flexible electronics , wearable technology , tension (geology) , materials science , mechanical engineering , computer science , acoustics , engineering , nanotechnology , compression (physics) , structural engineering , electrical engineering , composite material , physics , embedded system , geometry , mathematics
Flexible and wearable electronics integrated with various sensors have great potential for applications in monitoring human activities and personal health. Bending and tension/compression dominate the deformation modes yielded by flexure of joints and diverse body gestures. A key challenge now is to sense the curvature/bending angle, while much research has been focused on the strain sensors for tension/compression. Alternative approaches by strain sensors or noncontact optical methods for curvature sensing are not practical for wearable electronics. A novel adhesion‐free thin‐film‐like curvature sensor that can monitor bending activities is introduced for flexible and wearable electronics. This study presents comprehensive design, fabrication, mechanism, structural analysis, performance characterization, and device‐level demonstrations for bending of joints, gesture recognition, and real‐time sitting posture correction. The most prominent advantage of the present sensor is that the measurement is independent of the strain of the target surface and the interfacial slippage, thus the perfect adhesion between the sensor and the surface is unnecessary. The features of adhesion‐free, simple mechanical principle, low cost, and satisfactory monitoring results highlight the superiority of the present curvature sensors for practical applications to flexible and wearable electronics.