Version 2 2018-08-16, 18:21Version 2 2018-08-16, 18:21
Version 1 2018-07-26, 18:20Version 1 2018-07-26, 18:20
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posted on 2018-07-13, 00:00authored byJian Wang, Mizuki Tenjimbayashi, Yuki Tokura, Jun-Yong Park, Koki Kawase, Jiatu Li, Seimei Shiratori
In
recent years, wearable and flexible sensors have attracted considerable
research interest and effort owing to their broad application prospects
in wearable devices, robotics, health monitoring, and so on. High-sensitivity
and low-cost pressure sensors are the primary requirement in practical
application. Herein, a convenient and low-cost process to fabricate
a bionic fish-scale structure poly(dimethylsiloxane) (PDMS) film via
air/water interfacial formation technique is presented. High-sensitivity
flexible pressure sensors can be constructed by assembling conductive
films of graphene nanosheets into a microstructured film. Thanks to
the unique fish-scale structures of PDMS films, the prepared pressure
sensor shows excellent performance with high sensitivity (−70.86%
kPa–1). In addition, our pressure sensors can detect
weak signals, such as wrist pulses, respiration, and voice vibrations.
Moreover, the whole process of pressure sensor preparation is cost-effective,
eco-friendly, and controllable. The results indicate that the prepared
pressure sensor has a profitable and efficient advantage in future
applications for monitoring human physiological signals and sensing
subtle touch, which may broaden its potential applications in wearable
devices.