Lingnan Song scite author profile

We demonstrate a class of microstrip patch antennas that are stretchable, mechanically tunable, and reversibly deformable. The radiating element of the antenna consists of highly conductive and stretchable material with screen-printed silver nanowires embedded in the surface layer of an elastomeric substrate. A 3-GHz microstrip patch antenna and a 6-GHz 2-element patch array are fabricated. Radiating properties of the antennas are characterized under tensile strain and agree well with the simulation results. The antenna is reconfigurable because the resonant frequency is a function of the applied tensile strain. The antenna is thus well suited for applications like wireless strain sensing. The material and fabrication technique reported here could be extended to achieve other types of stretchable antennas with more complex patterns and multilayer structures.

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Neutral-pH PEDOT:PSS as over-coating layer for stable silver nanowire flexible transparent conductive films

Chen

Song²,

Tao³

et al. 2014

Organic Electronics

101

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Wideband Frequency Reconfigurable Patch Antenna With Switchable Slots Based on Liquid Metal and 3-D Printed Microfluidics

Song

Gao

Chui

et al. 2019

IEEE Trans. Antennas Propagat.

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A Systematic Investigation of Rectangular Patch Antenna Bending Effects for Wearable Applications

Song

Rahmat‐Samii

2018

IEEE Trans. Antennas Propagat.

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Lingnan Song

Chemistry of .mu.-dithio-bis(tricarbonyliron), a mimic of organic disulfides. 1. Formation of di-.mu.-thiolate-bis(tricarbonyliron) dianion

Stretchable and Reversibly Deformable Radio Frequency Antennas Based on Silver Nanowires

Neutral-pH PEDOT:PSS as over-coating layer for stable silver nanowire flexible transparent conductive films

Wideband Frequency Reconfigurable Patch Antenna With Switchable Slots Based on Liquid Metal and 3-D Printed Microfluidics

A Systematic Investigation of Rectangular Patch Antenna Bending Effects for Wearable Applications

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