Title :
An all-inkjet printed flexible capacitor for wearable applications
Author :
Li, Yi ; Torah, Russel ; Beeby, Steve ; Tudor, John
Author_Institution :
Electron. & Comput. Sci., Univ. of Southampton, Southampton, UK
Abstract :
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 printable photoresist (SU-8) is chosen for the dielectric layer which requires room temperature UV curing for 10 seconds. The theoretical capacitance is calculated to be 48.59 pF using a relative permittivity of 4.2 for SU-8. The discrepancy is around 0.2% to actual capacitance measured at 100 Hz.
Keywords :
capacitance measurement; capacitors; curing; dielectric thin films; ink jet printing; nanoparticles; permittivity; photoresists; silver; SU-8; UV curing process; all-inkjet printed flexible capacitor fabrication; capacitance 48.59 pF; capacitance measurement; capacitor layer; conductive inkjet ink; curing process; dielectric layer; flexible substrate; frequency 100 Hz; inkjet printable photoresist; parallel plate structure; relative permittivity; silver nanoparticle dispersion; temperature 150 degC; temperature 293 K to 298 K; time 10 min; time 10 s; wearable applications; wearable electronics; Capacitance; Capacitors; Ink; Printing; Resistance; Silver;
Conference_Titel :
Design, Test, Integration and Packaging of MEMS/MOEMS (DTIP), 2012 Symposium on
Conference_Location :
Cannes
Print_ISBN :
978-1-4673-0785-7
