Article citationsMore>>
Webb, R.C., Bonifas, A.P., Behnaz, A., Zhang, Y., Yu, K.J., Cheng, H., Shi, M., Bian, Z., Liu, Z., Kim, Y.S., Yeo, W.Z., Bian, Z., Liu, Y.S., Kim, W.H., Park, J.S., Song, J., Li, Y., Huang, Y., Gorbach, A.M. and Rogers, J.A. (2013) Ultrathin Conformal Devices for Precise and Continuous Thermal Characterization of Human Skin. Nature Materials, 12, 938-944.
https://doi.org/10.1038/nmat3755
has been cited by the following article:
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TITLE:
Stretchable Strain Sensors Fabricated by Screen Printing of Silver Paste on the Surface Modified Transparent Elastomeric Polyurethane Films
AUTHORS:
Chang Gyu Lee, Bo Seok Kwon, Hyun Min Nam, Duck Min Seo, Jinwoo Park, Hyuc Hwangbo, Lee Soon Park, Su Yong Nam
KEYWORDS:
Stretchable Strain Sensor, Screen Printing, Silver Paste
JOURNAL NAME:
Materials Sciences and Applications,
Vol.9 No.13,
December
14,
2018
ABSTRACT: Strain sensors for human-motion detection must offer high stretchability, high sensitivity, fast response, and high recovery speed. In this study, we choose silver paste as a sensing material and use a screen printing method to fabricate the strain sensor based upon an electrical-resistance mechanism. After curing elastomeric polyurethane film with a thickness of 150 μm on PET film, the polyester resin mixed with blocked isocyanate curing agent was coated as a masking layer to reduce the film’s stickiness. The effect of the polyester masking layer upon the silver paste screen printing process was examined using a rolling-ball-tack test, TGA analysis of polyester resins, and cured silver-electrode films. The cost-effective strain sensor fabricated by using silver paste and screen printing processes on the stretchable-polyurethane-substrate film showed high sensitivity and fast response in a strain range of up to 100%.
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