Abstract
Polymer, especially polyimide (PI), is the best suitable substrate material for the design of flexible electronics. The compact silver can be reduced on the surface of PI films by surface modification and in situ self-metallization technique. The formed silver layers have good electrical and mechanical flexibility. A flexible bandpass filter on a PI flexible substrate by surface modification and in situ self-metallization technique at room temperature are presented in this work. Measured results show that the proposed flexible bandpass filter could achieve a fractional bandwidth of 80.8% with an insertion loss (IL) of less than 0.6 dB. The performance of the designed filter is almost constant under different bending, folding, and rolling conditions. The formed silver layers also present good adhesion with PI substrates. This technology provides an alternative approach for manufacturing flexible filters without high-temperature thermal annealing, costly equipment, and vacuum conditions.
Highlights
Polymers are suitable for use in the substrates of flexible electronics due to their excellent bendability, electrical properties, and other characteristics [1,2,3,4,5,6]
Rolling conditions, the measured bandwidth and insertion loss of the flexible filter show good consistency.InMeanwhile, the adhesion of passive metals the substrate of the modification flexible filter was this work, flexible bandpass filters fabricated on PItosubstrates using surface and in situ technique at room temperature are presented
Methods proposed flexible bandpass filter is outstanding for applications in flexible electronics
Summary
Polymers are suitable for use in the substrates of flexible electronics due to their excellent bendability, electrical properties, and other characteristics [1,2,3,4,5,6]. In order to improve the adhesion of passive metals on the PI substrate, surface modification and in situ self-metallization technique was presented [16,17] This technique requires no high-temperature thermal annealing, costly equipment, or vacuum conditions [18]. Flexible bandpass filters fabricated on PI substrates using surface modification and in situ self-metallization technique at room temperature are presented. Under different bending, folding, Polymers 2019, 11, x FOR PEER REVIEW and rolling conditions, the measured bandwidth and insertion loss of the flexible filter show good consistency.InMeanwhile, the adhesion of passive metals the substrate of the modification flexible filter was this work, flexible bandpass filters fabricated on PItosubstrates using surface and in situ technique at room temperature are presented. Methods proposed flexible bandpass filter is outstanding for applications in flexible electronics
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