Mohammad A. Saed scite author profile

Abstract-This paper presents a novel broadband, low-profile dielectric resonator antenna using relatively low dielectric constant substrate material. The rectangular DRA is fed with a stepped microstrip feed to ensure efficient coupling. Bandwidths in excess of 17% are obtained. In addition, the paper investigates methods to miniaturize the antenna using metallic strips or patches. Substantial size reduction is demonstrated while maintaining a reasonable bandwidth. Simulations as well as experimental results are presented.

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Radio Frequency Heating of Carbon Nanotube Composite Materials

Sweeney¹,

Moran²,

Gruener³

et al. 2018

ACS Appl. Mater. Interfaces

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Here, we give the first-ever report of radio frequency (RF) electromagnetic heating of polymer nanocomposite materials via direct-contact and capacitively coupled electric field applicators. Notably, RF heating allows nanocomposite materials to be resistively heated with electric fields. We highlight our novel RF heating technique for multiwalled carbon nanotube (MWCNT) thermoplastic composites and measure their broadband dielectric properties. We also demonstrate three different electric field applicator configurations and discuss their practical use in an industrial setting. We demonstrate the use of RF heating to cure an automotive-grade epoxy loaded with MWCNTs. Our results show that lap shear joints cured faster with the RF method compared with control samples cured in an oven because of the heat-transfer advantages of directly heating the epoxy composite. Finally, we implement our RF curing technique to assemble an automotive structure by locally curing an epoxy adhesive applied to a truck chassis.

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Detection of carbon nanotubes in biological samples through microwave-induced heating

Irin

Shrestha

Cañas

et al. 2012

Carbon

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Tunable dual-band terahertz metamaterial bandpass filters

et al. 2013

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We report metamaterial terahertz (THz) bandpass filters with tunable dual-band selectivity. The shift in the center frequency of the device is achieved by actively modifying the effective length of the resonators. This was realized by introducing vanadium dioxide (VO2) bridges interconnecting specific regions of each resonator. Raising the temperature across the phase transition shifted the resonance frequency by ~32% due to changes in the electrical conductivity of the VO2. Measured THz transmission response of the proposed dual-band filter was in good correspondence with simulations.

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Mohammad A. Saed

Welding of 3D-printed carbon nanotube–polymer composites by locally induced microwave heating

Microstrip - Fed Low Profile and Compact Dielectric Resonator Antennas

Radio Frequency Heating of Carbon Nanotube Composite Materials

Detection of carbon nanotubes in biological samples through microwave-induced heating

Tunable dual-band terahertz metamaterial bandpass filters

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