Huiwen Qu scite author profile

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.

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A Polyimide-Based Flexible Monopole Antenna Fed by a Coplanar Waveguide

Cang

Wang

2021

Electronics

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A 2.4 GHz flexible monopole antenna fed by a coplanar waveguide (CPW) was presented on polyimide (PI) as the dielectric substrate, which was fabricated by in situ self-metallization. The technology does not depend on expensive equipment or complex experimental environments, including hydrolysis, ion exchange, and reduction reaction. The measurement results show that the resonance frequency of the proposed antenna is 2.28 GHz, the bandwidth is 2.06–2.74 GHz, and the relative bandwidth is 28.33% under the flat state. The bending and folding test was also carried out. Whether it was flat, bent, or folded, the measured results met the requirements of the antenna. A fatigue test was carried out to illustrate that the prepared film has high mechanical flexibility, which expands the application field of antenna.

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A polyimide-based flexible monopole antenna

Liu

Zhi-liang

Cang

et al. 2022

J Mater Sci: Mater Electron

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Flexible bandpass filter on polyimide substrate

Gong

Wang

et al. 2021

J Mater Sci: Mater Electron

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Huiwen Qu

Flexible UWB antenna fabricated on polyimide substrate by surface modification and in situ self-metallization technique

Flexible Bandpass Filter Fabricated on Polyimide Substrate by Surface Modification and In Situ Self-Metallization Technique

A Polyimide-Based Flexible Monopole Antenna Fed by a Coplanar Waveguide

A polyimide-based flexible monopole antenna

Flexible bandpass filter on polyimide substrate

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