2019
DOI: 10.1002/admt.201900540
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Graphene Oxide Films Prepared Using Gelatin Nanofibers as Wearable Sensors for Monitoring Cardiovascular Health

Abstract: A gelatin nanofiber film that shows a failure tensile stress of 35 MPa, much stronger than conventional polyacrylamide hydrogels (<0.2 MPa), tough double network hydrogels (0.2–1.0 MPa), some engineering plastics such as polyethylene films (16 MPa) and polysulfones (1–10 MPa), is prepared by electrospinning. It is processed into a graphene oxide film, which exhibits high conductivity, via a high‐temperature treatment. A simple approach to prepare graphene oxide films using gelatin is provided. A highly sensiti… Show more

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Cited by 22 publications
(9 citation statements)
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“…Wearable nanofiber-based sensors have emerged as a promising approach to real-time monitoring of physiological signals such as pulse rate, respiration, muscle movements, breath humidity, and glucose level . The renewed interest in these nanostructured materials is attributed to their facile and low-cost preparation, biocompatibility, biodegradability, high sensitivity, reliability, and stability besides appropriate mechanical properties and fast response time .…”
Section: Biomedical Applications Of Polymer Fibersmentioning
confidence: 99%
“…Wearable nanofiber-based sensors have emerged as a promising approach to real-time monitoring of physiological signals such as pulse rate, respiration, muscle movements, breath humidity, and glucose level . The renewed interest in these nanostructured materials is attributed to their facile and low-cost preparation, biocompatibility, biodegradability, high sensitivity, reliability, and stability besides appropriate mechanical properties and fast response time .…”
Section: Biomedical Applications Of Polymer Fibersmentioning
confidence: 99%
“…182 Similar to SF and keratin, gelatin can also be carbonized at 800 °C to create pressure-sensitive conductive GO films. 183 Like collagen, gelatin itself has limited mechanical performances and stability, thus requiring cross-linking to adjust the mechanical and biochemical properties for different biomaterial applications. 184 The mechanical and conductive properties of gelatin have been enhanced by mixing with sodium citrate to create a self-healing and conductive organohydrogel that is stable at freezing temperatures.…”
Section: Collagenmentioning
confidence: 99%
“…Sensitivity reflects the capacity for appropriate responses to mechanical stimuli is a basic parameter for the performance characterization of mechanical sensors [45]- [47]. Mechanical stimuli such as texture, size, shape, hardness and softness of the measured object could be obtained through other mechanical stimuli by static force with high sensitivity and high resolution [48]- [50].…”
Section: B Performance Characterization Of Mechanical Sensormentioning
confidence: 99%