Ultralarge Curvature and Extreme Rapid Degradable Porous Wood Based Flexible Triboelectric Sensor for Physical Motion Monitoring

Flexible self‐power triboelectric nanogenerators (TENGs) have attracted worldwide attention in the fields of optoelectronic systems, communication, and biomedical diagnostics due to its outstanding energy collection capacity and high output potential. Wood, as a natural and environmental friendly ma...

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Bibliographic Details
Published in:Advanced materials technologies 2023-03, Vol.8 (5), p.n/a
Main Authors: Bi, Sheng, Han, Xu, Chen, Qiangqiang, Gao, Buhan, Chen, Luhua, He, Zhengran, Jiang, Chengming
Format: Article
Language:English
Subjects:
degradable
flexible device
porous wood
triboelectric nanogenerator
wearable
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Summary:Flexible self‐power triboelectric nanogenerators (TENGs) have attracted worldwide attention in the fields of optoelectronic systems, communication, and biomedical diagnostics due to its outstanding energy collection capacity and high output potential. Wood, as a natural and environmental friendly material with excellent mechanical properties, is an ideal material for construction of high performance TENG. Herein, a porous wood based flexible triboelectric sensor (PWFTS) as a wearable motion testing system with ultralarge folding curvature and extreme high stability for real‐time body motion monitoring is presented. With an over 180° curving angle, the output power of the PWFTS from porous wood is more than 200% compared with that from natural wood. Moreover, a rapid degradation of as low as 48 h with extremely reliable repeatability and stability leads to an ideal candidate for wearable devices. The enhancement of such PWFTS may open up opportunities in innovative applications in various triboelectric devices and flexible integrated systems. A wearable porous wood based flexible triboelectric sensor (PWFTS) for real‐time body motion monitoring is presented. With an over 180° curving angle, the output voltage of the PWFTS from porous wood is more than 200% compared with that from natural wood. A rapid degradation of as low as 48 h with reliable stability leads to an ideal candidate for wearable devices.
ISSN:2365-709X
2365-709X
DOI:10.1002/admt.202201066