2022
DOI: 10.1002/ente.202201143
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SiO2 Nanoparticles Incorporated Poly(Vinylidene) Fluoride Composite for Efficient Piezoelectric Energy Harvesting and Dual‐Mode Sensing

Abstract: Flexible electronic skins (e‐skins) have a wide range of applications in health monitoring, human–machine interfaces, and robotics. Herein, a novel architecture of e‐skins with a combination of multimode measurement and low‐cost implementation is proposed. A single electronic skin layer is used to integrate both the pressure and temperature sensing properties. An e‐skin membrane is first developed with poly(vinylidene) fluoride incorporated with silicon dioxide nanoparticles. When combined with electrodes, thi… Show more

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Cited by 6 publications
(3 citation statements)
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“…In contrast, several natural polymers present themselves as promising options. [ 149–150 ] For example, cellulose, chitosan, carbohydrates (e.g., starch and sugar), proteins, and natural rubber. These materials, derived from nature, exhibit exceptional biocompatibility, permeability, and biodegradability.…”
Section: Biocompatible Materials For Cardiovascular Health Monitoringmentioning
confidence: 99%
“…In contrast, several natural polymers present themselves as promising options. [ 149–150 ] For example, cellulose, chitosan, carbohydrates (e.g., starch and sugar), proteins, and natural rubber. These materials, derived from nature, exhibit exceptional biocompatibility, permeability, and biodegradability.…”
Section: Biocompatible Materials For Cardiovascular Health Monitoringmentioning
confidence: 99%
“…Currently, common wireless technologies include near field communication (NFC), [ 240–242 ] Bluetooth, [ 243–252 ] radio frequency identification (RFID), [ 253 ] and wireless fidelity (Wi‐Fi). [ 254,255 ] Yu et al. developed a self‐powered real‐time monitoring system for sweat to care for the elderly (Figure 7c).…”
Section: Desired Properties For E‐skin Health Monitoring Devicesmentioning
confidence: 99%
“…Conductive hydrogels, mainly composed of polymeric matrix and conductive medium, have aroused tremendous interests for their unique features, such as comparable tissue‐like mechanical performance, intrinsic electrical conductivity and biocompatibility 1–6 . Over the last decades, various types of conductive hydrogels have been developed, which can intelligently respond to biological tissues through electricity, showing great potential in the biomedical field 7–12 . Generally, these conductive hydrogels can be classified into two genres, including electronic, and ionic conductive hydrogels 13–18 .…”
Section: Introductionmentioning
confidence: 99%