Feasibility Study of a Non-Contact Differentiation of Cannabidiol Concentrations Using Interdigital Electrodes

This feasibility study presents a novel noncontact method for differentiating standard cannabidiol (CBD) concentrations using optimized interdigital electrodes. The electrode design, with a 100 mm2 sensing area on a 64 mm × 77 mm FR-4 substrate, was improved through finite element analysis. Methanol...

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Bibliographic Details
Published in:ACS omega 2024-12, Vol.9 (52), p.51515-51524
Main Authors: Boonrat, Kanitsorn, Jaroenkunpanit, Pinyada, Wounchoum, Phairote, Jantarachote, Vasan, Chetpattananondh, Pakamas, Chetpattananondh, Kanadit
Format: Article
Language:English
Online Access:Get full text
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Summary:This feasibility study presents a novel noncontact method for differentiating standard cannabidiol (CBD) concentrations using optimized interdigital electrodes. The electrode design, with a 100 mm2 sensing area on a 64 mm × 77 mm FR-4 substrate, was improved through finite element analysis. Methanol-CBD solutions (25–1000 ppm) in 2 mL glass vials were analyzed using a vector network analyzer connected via a high-frequency SMA connector, focusing on scattering parameter (S-parameter) changes. The method demonstrated high effectiveness in CBD concentration differentiation, achieving a concentration resolution of 145 MHz/50 ppm based on resonant frequency shift, with an error of 0.17% of the reading, and 0.5 dB/50 ppm using S11 amplitude measurement. The proposed method offers a promising, linear, and precise technique for noncontact CBD standard analysis, with potential applications in future research. In addition, impedance measurements can be applied to enhance concentration differentiation further.
ISSN:2470-1343
2470-1343
DOI:10.1021/acsomega.4c08811