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Microplastic Detection in Soil and Water Using Resonance Microwave Spectroscopy

Published 18 Apr 2020 in physics.app-ph | (2004.08713v1)

Abstract: A feasibility study of microplastic detection and quantification in soil and water using resonance microwave reflectometry is carried out using artificially created samples with high volumetric concentration of microplastic with 50{\mu}m-0.5mm particles size. A mathematical model expressing microplastic concentration in soil and water as a linear function of the measured S11 resonance frequency shift and relative permittivity contrast is developed and is found to be in a very good agreement with the experimental data. Next, this model is applied to find the best achievable theoretical resolution of microplastic concentration in the natural environment using microwave sensing technology which is shown to be at around 100ppm (parts-per-million) level in the linear signal detection regime. It is demonstrated that the best achievable level of microplastic contaminant resolution depends on the sensor probe Q-factor and sensitivity of the microwave receiver. The bound for the achievable contaminant concentration resolution is found in the analytical form for high-Q resonance microwave sensors of arbitrary geometry. Even though several well-established protocols based on optical, infrared and X-ray spectroscopy are currently being used for microplastic detection in the natural environment, microwave spectroscopy could offer additional possibilities, especially for low-cost, real-time in-situ microplastic detection in diverse environmental conditions outside of the laboratory space.

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