Permeability negative split square resonator for solid materials dielectric constant and aqueous solution pH sensing applications

Metamaterials (MTMs) offer unique electromagnetic properties with wide-ranging applications in microwave sensing. This work introduces a unique approach for non-invasive pH level measurement in aqueous solutions and dielectric properties sensing in solid materials. Mu Negative (MNG) Metamaterial wit...

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Bibliographic Details
Published in:Sensors and actuators. A. Physical. 2024-04, Vol.369, p.115107, Article 115107
Main Authors: Musa, Ahmad, Hakim, Mohammad Lutful, Alam, Touhidul, Islam, Mohammad Tariqul, Alamri, Saeed, Alshammari, Ahmed S., Soliman, Mohamed S.
Format: Article
Language:English
Subjects:
Material sensing
Metamaterial
pH sensing
Rejection band sensing
Sensing application
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Summary:Metamaterials (MTMs) offer unique electromagnetic properties with wide-ranging applications in microwave sensing. This work introduces a unique approach for non-invasive pH level measurement in aqueous solutions and dielectric properties sensing in solid materials. Mu Negative (MNG) Metamaterial with transmission line and rejection band shifting techniques are utilized for this sensing. The MTM unit cell comprises coupled split square resonators arranged in a 4 × 4 unit cell array with a transmission line underneath. The compact unit cell and array sizes are 0.3 λ × 0.3 λ × 0.06 λ and 1.6 λ × 1.6 λ × 0.06 λ, respectively. The sensor demonstrates impressive performance, with a narrow half-power bandwidth (HPBW) of 0.09 GHz and a high Q-factor of 135.22 for dielectric constant sensing of the solid material. It also achieves an HPBW of 0.38 GHz and a Q-factor of 37.3 for pH sensing. The proposed pH sensor achieves a high sensitivity of 6.15 (MHz/pH). Additionally, the MTM sensor boasts a substantial Figure of Merit (FoM) of 8.311 for solid materials and 16.2 for pH measurements. These promising results are validated through measurements, highlighting the potential of MTM sensors to revolutionize microwave sensing across various applications. [Display omitted] •Metamaterial sensor for permittivity of solid material and aqueous pH sensing.•Sensing using the rejection band and transmission line technique.•Sensing pH change without physical contact with the aqueous solutions.•The sensor exhibited a high sensitivity to variations in permittivity and pH values.
ISSN:0924-4247
1873-3069
DOI:10.1016/j.sna.2024.115107