Modeling and performance evaluation of antennas coated using monolayer graphene in the millimeter and sub‐millimeter wave bands

In the applications of millimeter and sub‐millimeter wave, the conductivity of metal parts in electronic devices can easily degrade when conventional metals like copper are employed. Furthermore, oxidation may arise when such devices are utilized in severe environmental conditions. To avoid this, co...

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Bibliographic Details
Published in:International journal of numerical modelling 2021-08, Vol.34 (5), p.n/a
Main Authors: Gatte, Mohammed Taih, Soh, Ping Jack, Kadhim, Rasim Azeez, Abd, Haider J., Ahmad, R. Badlishah
Format: Article
Language:English
Subjects:
antenna coating
Antennas
Coatings
Conduction
Conductors
conductor‐coating materials
Copper
Electronic devices
Frequencies
Gold
Graphene
graphene antennas
Microstrip antennas
Millimeter waves
millimeter‐wave antennas
Monolayers
Oxidation
Patch antennas
Performance enhancement
Performance evaluation
Radiation
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Summary:In the applications of millimeter and sub‐millimeter wave, the conductivity of metal parts in electronic devices can easily degrade when conventional metals like copper are employed. Furthermore, oxidation may arise when such devices are utilized in severe environmental conditions. To avoid this, conventional conductors such as copper can be coated with other non‐active materials to inhibit this problem. Monolayer graphene is used in this study as a coating layers for copper in millimeter‐wave antennas. Two types of graphene coatings are investigated: non‐doped and doped monolayer graphene. These coatings can either be used as the patch, ground or both conducting layers of a microstrip patch antenna. Results showed that coating using doped graphene improves the performance of antenna in terms of gain, radiated power and radiation efficiency by 11.81%, 8.48%, and 11.48%, respectively, compared to antennas made using copper and coated using gold and non‐doped graphene at millimeter‐wave frequencies. Meanwhile, at sub‐millimeter wave frequencies, the metal (copper and gold)‐based antenna showed worse performance compared to millimeter waves. Furthermore, coating of the conducting elements for the sub‐millimeter wave antenna using doped and non‐doped graphene improved gain, radiated power and radiation efficiency by 33.94%, 32.73%, and 32.01%, respectively, for the coating with doped graphene, and about 14.87%, 16.56%, and 15.72% for the coating with non‐doped graphene. This indicates the suitability of graphene‐based antennas in both frequency bands and the expected levels of improvements for different parameters when these antenna elements are coated with doped and non‐doped graphene.
ISSN:0894-3370
1099-1204
DOI:10.1002/jnm.2929