Design of microstrip-fed proximity-coupled conducting-polymer patch antenna

Rmili, Hatem; Miane, J. L.; Olinga, Thomas; Zangar, H.

doi:10.1109/antem.2005.7852146

Cited by 11 publications

(11 citation statements)

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“…Nevertheless, the cost, the fabrication procedure, the weight or the corrosion resistance can limit their applications. Recent studies have presented various conductive composite materials as a replacement for metals [1][2][3]. A patch antenna has been fabricated from a conducting-polymer in [1], or from a textile coated with carbon nanotubes (CNTs) and gold in [2].…”

Section: Introductionmentioning

confidence: 99%

Performance of a Lozenge Monopole Antenna Made of Pure Composite Laminate

Manac'H¹,

Castel²,

Himdi³

2012

PIER Letters

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Abstract-The use of carbon-fiber tissue as a replacement for metal radiating element has been investigated to fabricate microwave antennas embedded in composite material panels. A single ply of a dry carbon-fiber tissue with a 0.15 Ω/sq sheet resistance value and a square shape (50 mm × 50 mm) acts as the radiating element. It has been embedded inside the glass-fiber and polyester resin composite laminate by using the infusion technique.The measured radiofrequency characteristics of the pure composite antenna are presented, discussed and compared to those of a reference counterpart, made from a plain metal sheet. The pure composite antenna exhibits a measured gain strictly alike to that of the reference antenna up to 2.1 GHz.

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Section: Introductionmentioning

confidence: 99%

Performance of a Lozenge Monopole Antenna Made of Pure Composite Laminate

Manac'H¹,

Castel²,

Himdi³

2012

PIER Letters

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“…In Reference [23], a microstrip-fed proximity-coupled conductive polymer patch antenna resonating at 10 GHz is designed. A polyaniline (Pani) film featuring a conductivity, relative permittivity, and thickness of 6 × 10 3 S/m, 6000, and 100 μm is fabricated on alumina using a screen printing technique.…”

Section: Conductive Polymermentioning

confidence: 99%

“…The electrical conductivity of AgNW is obtained by comparing the simulation results with the measured insertion loss of coplanar waveguide (CPW), assuming a constant coating thickness of t = 40 nm. The electrical In Reference [23], a microstrip-fed proximity-coupled conductive polymer patch antenna resonating at 10 GHz is designed. A polyaniline (Pani) film featuring a conductivity, relative permittivity, and thickness of 6 × 10 3 S/m, 6000, and 100 µm is fabricated on alumina using a screen printing technique.…”

Section: Nanowire Silver Nanowiresmentioning

confidence: 99%

Optically Transparent Nano-Patterned Antennas: A Review and Future Directions

et al. 2018

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Transparent antennas have been continuously developed for integration with solar cells, vehicular communications, and ultra-high-speed communications such as 5G in recent years. A transparent antenna takes advantage of spatial extensibility more so than all other antennas in terms of wide range of usable area. In addition, the production price of transparent antennas is steadily decreasing due to the development of nano-process technology. This paper reviews published studies of transparent antennas classified by various materials in terms of optical transmittance and electrical, sheet resistance. The transparent electrodes for the transparent antenna are logically classified and the transparent antennas are described according to the characteristics of each electrode. Finally, the contributions transparent antennas can make toward next-generation 5G high-speed communication are discussed.

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“…Recently there has been a growing interest in exploiting conducting polymers (CP) for planar antennas [1][2][3][4][5]. The motivation for building an antenna using CPs is to exploit the plastic-like mechanical properties and processability of these materials.…”

Section: Introductionmentioning

confidence: 99%