Printed silk-fibroin-based triboelectric nanogenerators for multi-functional wearable sensing

The rapid development of wearable sensing technology exhibits unprecedented opportunities for artificial intelligence by establishing an interactive interface between the physical and the virtual worlds. Energy preservation and multi-functional integration are central for the enhancement of perception and sustainability of wearable electronics. Herein, to address the above two critical challenges, we presented a printed silk-fibroin-based triboelectric nanogenerator (PS-TENG), which can efficiently scavenge the bio-mechanical energy and precisely detect components of environmental humidity and human body motions simultaneously. An industrial mass-fabrication technology, i.e. screen-printing process, was successfully optimized to manufacture graphite-based microscale surface patterns atop polymeric soft substrate to form interdigital electrodes, which was covered by a thin layer of silk fibroin to realize the PS-TENG. The proposed wearable PS-TENG exhibited a remarkable output performance, and the voltage, the current and the power density achieved up to 666 V, 174.6 mu A, 412 mu W/cm(2), respectively. Furthermore, this ultra-thin foldable PS-TENG possesses incredible features for multi-functional wearable sensing. With the help of the unique selective absorption property of silk fibroin, it was firstly reported that the existing states of water molecules (i.e., liquid and gaseous) in the air were successfully distinguished. Moreover, as attractive potential applications, it was demonstrated to accurately discriminate the health situation of human body (i.e., respiratory monitoring and joints motion recognizing) based on the capacitive and the triboelectric principles respectively, which is a novel combination of passive sensing and active sensing mechanisms within a single wearable device.


Publié dans:
Nano Energy, 66, 104123
Année
Dec 01 2019
Publisher:
Amsterdam, ELSEVIER
ISSN:
2211-2855
2211-3282
Mots-clefs:
Laboratoires:




 Notice créée le 2020-01-08, modifiée le 2020-01-13


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