Enhanced electrothermal efficiency of flexible graphene fabric Joule heaters with the aid of graphene oxide

Enhanced wearable Joule heaters of GO-5 was designed by fabricating a bilayer structure on the fabric substrate. In electrothermal performance investigation showed steady-state temperature of 162.6 °C which is 69.7 °C higher than that of GO-0 heater (92.9 °C) under 12V, maximum heating rate of GO-5...

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Bibliographic Details
Published in:Materials letters 2019-01, Vol.234, p.101-104
Main Authors: Tian, Mingwei, Hao, Yunna, Qu, Lijun, Zhu, Shifeng, Zhang, Xiansheng, Chen, Shaojuan
Format: Article
Language:English
Subjects:
Bilayers
Efficiency
Electrothermal efficiency
Fabrics
Functional
Graphene
Graphene inks
Graphene oxide
Heaters
Heating rate
Infrared cameras
Materials science
Morphology
Polyurethane resins
Protective coatings
Scanning electron microscopy
Spray coating
Spraying
Steady state
Substrates
Surfaces
Textile composites
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Summary:Enhanced wearable Joule heaters of GO-5 was designed by fabricating a bilayer structure on the fabric substrate. In electrothermal performance investigation showed steady-state temperature of 162.6 °C which is 69.7 °C higher than that of GO-0 heater (92.9 °C) under 12V, maximum heating rate of GO-5 heater up to 8.4 °C/s under 12V which is much faster than 4.1 °C/s of GO-0 heater. [Display omitted] •Graphene oxide and graphene were grafted on cotton fabric successfully.•Bilayers structure was built to assistant GO function better.•GO-5 fabric heater exhibited enhanced electrothermal performance compared to GO-0. Flexible fabric Joule heaters reflect a broad prospect due to their wearable substrate, low cost and easily compatibility to garment. In this paper, graphene-based fabric Joule heaters were fabricated with spraying coating method, the as-prepared fabrics possessed bilayer structure corresponding to the inner graphene/polyurethane layer and the outer graphene oxide layer respectively. The morphology and electrothermal performance of the fabric Joule heaters were accomplished by scanning electron microscopy and infrared camera. The outer graphene oxide could dramatically promote the electrothermal efficiency of the fabric Joule heaters with the steady-state temperature (162.6 °C) and the maximum heating rate (8.4 °C/s) under 10 V applied voltage, which was much higher than the heaters without GO layer with the steady-state temperature 70.1 °C and the maximum heating rate 2.61 °C/s. Therefore, the existence of GO layer was first demonstrated to observably enhance the electrothermal efficiency of flexible fabric Joule heaters.
ISSN:0167-577X
1873-4979
DOI:10.1016/j.matlet.2018.09.078