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This paper reports a flexible capacitor for wearable applications which has been all-inkjet printed on a standard 65/35 polyester cotton textile using a new poly(4-vinylphenol) (PVP) dielectric material. Capacitors form the basis of a variety of sensors, such as for proximity and touch, as well as electronic circuits. This paper reports a general fabrication printing process to realize capacitors...
We report on the fabrication of an all-inkjet printed capacitor on a flexible substrate for future use in wearable electronics. Each layer of the capacitor was deposited exclusively using inkjet printing. The capacitor is constructed using the parallel plate structure. A silver nanoparticle dispersion was chosen for the conductive inkjet ink with a curing process of 150 °C for 10 minutes. An inkjet...
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