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Enhancing the bandwidth of antennas using polymer composites with high dielectric relaxation

Ilkan Calisir, Xiantao Yang, Elliot L. Bennett, Jianliang Xiao, Yi Huang

2023Materials Today Electronics17 citationsDOIOpen Access PDF

Abstract

We propose a concept using a frequency-dependent property (dielectric relaxation) of dielectric materials to enhance the bandwidth of the antenna widely used in wireless communications. The bandwidth enhancement can be achieved when a loading dielectric material with a relative permittivity that is inversely proportional to the frequency by the power of n. The bandwidth for a selected antenna example could be increased by 135% when the power n = 2. A solid material, composed of plasticized PVDF containing nano-sized silica particles, exhibiting dielectric relaxation of n = 0.52, is developed in order to prove the theoretical concept and used to test the performance of an example mobile phone antenna. The influence of hydrogen bonding on tuning the frequency-dependent power n in the developed composite material is verified. The bandwidth of the antenna was increased by 18% over the operating frequency band using a newly developed dielectrically relaxing material, n = 0.52 compared to the conventional non-relaxing material, n = 0.

Topics & Concepts

Materials scienceDielectricBandwidth (computing)PermittivityComposite materialRelative permittivityOptoelectronicsTelecommunicationsComputer scienceDielectric materials and actuatorsAdvanced Sensor and Energy Harvesting MaterialsSynthesis and properties of polymers
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