Abstract
In this paper, a novel technique using an ultra-sensitive optical resonator based on whispering gallery modes (WGM) is proposed to detect the diffusion of organic solvents. The sensor configuration is a micro-cavity made of polymeric material. When the solvent starts to diffuse, the polymer of the cavity starts to swallow that solvent. A swollen elastomer is in fact a solution, except that its mechanical response is now elastic rather than viscous. As solvents fill the network, chains are extended. In turn, that leads to the change of the morphology and mechanical properties of the sensing element. These changes could be measured by tracking the WGM shifts. Several experiments were carried out to measure that swelling force. Ethanol and methanol are used in this paper as candidates to study their driving force of diffusion (concentration gradient) on the cavity. Additionally, this sensing design can be used for biological sensing application. Breath diagnosis can use this configuration in diabetes diagnosis since a solvent like acetone concentration in human breath leads to a quick, convenient, accurate, and painless breath diagnosis of diabetes. The optical resonator results are verified through two different analyses: theoretical and experimental modeling. These micro-optical cavities have been examined using preliminary experiments to fully investigate their response and to verify the numerical analysis. Results show that the proposed sensor yields sensitivity for the driving force of diffusion (concentration gradient) (9.405 × 1013 pm/N) with a measurement precision of ~3.6 fN.
Highlights
Diffusion in polymers is a new application to be studied in the optical sensors field
The driving of diffusion is acting on the outer surface of the sphere leading the vapor molecules to fill the gaps between the polymer molecules, in turn increasing the mass of the sphere, causing an increase in the sphere diameter and change in the optical cavity and its whispering gallery modes (WGM)
The results show that polymeric micro-optical cavities can be used for high-resolution detection
Summary
Diffusion in polymers is a new application to be studied in the optical sensors field. Micro-optical cavities have been as optical sensors with high sensitivities due to their (~1.3146 μm) and the resonance line-width respectively. They can be used as sensing elements quality factor Q / that can be exhibited, where l and ¶l are the wavelength of the light for different physical quantities such asline-width pressure respectively. When the light is coupled to the cavity through the tapered section of the single-mode optical. The optical resonance is the condition that we have to reach to start using these micro-cavities as first-order approximation, once the round trip of the light is equal to a multiple integer of the light sensors. Photograph heatingand andstretching stretching process thethe fiber with a micro-torch filledfilled
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