Design fabrication and characterisation of polyaniline and multiwall carbon nanotubes composites-based patch antenna

Design fabrication and characterisation of polyaniline and multiwall carbon nanotubes composites-based patch antenna

This study presents the conception, simulation, realisation and characterisation of a patch antenna made of a composite based on polyaniline (PANI) and multiwall carbon nanotubes (MWCNTs). The antenna is designed to operate at the frequency of 4.5 GHz; the dielectric substrate used is Rogers RT/Duro...

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Veröffentlicht in:IET microwaves, antennas & propagation antennas & propagation, 2016-01, Vol.10 (1), p.88-93
Hauptverfasser: Zahir, Hamouda, Wojkiewicz, Jean-Luc, Alexander, Pud, Kone, Lamine, Belkacem, Belaabed, Bergheul, Said, Lasri, Tuami
Format: Artikel
Sprache:eng
Schlagworte:
antenna gain
Antennas
conducting polymers
conductive polymer
dielectric losses
dielectric permittivity
dielectric substrate
Dielectrics
Electronics
Environmental Sciences
frequency 4.5 GHz
loss tangent
microstrip antennas
Multi wall carbon nanotubes
multiwall carbon nanotube composite‐based patch antenna
MWCNT
Noise levels
organic electronics
PANI
Patch antennas
Permittivity
polyaniline
Polyanilines
size 110 mum
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Beschreibung
Zusammenfassung:This study presents the conception, simulation, realisation and characterisation of a patch antenna made of a composite based on polyaniline (PANI) and multiwall carbon nanotubes (MWCNTs). The antenna is designed to operate at the frequency of 4.5 GHz; the dielectric substrate used is Rogers RT/Duroid® 5870 which has a dielectric permittivity of 2.33 and a loss tangent of 0.0012. The conductive polymer (PANI/MWCNTs) fabricated has a conductivity of 4500 S/m. The performance of the proposed antenna is investigated as a function of the thickness of the conductive polymer. The experimental results show an antenna gain of 5.18 dB for a PANI/MWCNTs thickness of 110 μm. The results obtained suggest that this kind of conductive polymers are good candidates for future applications based on organic electronics.
ISSN:1751-8725
1751-8733
1751-8733
DOI:10.1049/iet-map.2015.0211