Regression Methods for Ophthalmic Glucose Sensing Using Metamaterials

Rapp, Philipp; Mesch, Martin; Gießen, Harald; Tarín, Cristina

doi:10.1155/2011/953064

Cited by 8 publications

(7 citation statements)

References 28 publications

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“…An ideal system for our study is the structure depicted in Figure a, because it allows for good control of the single parameters, and it is well-described in the literature. , It consists of three gold nanoantennas repeated periodically in the x and y direction with period of 700 nm (in each direction). At the top of the system are two parallel antennas, which are exposed to the surrounding analyte.…”

Section: Resultsmentioning

confidence: 99%

Highly Sensitive Refractive Index Sensors with Plasmonic Nanoantennas−Utilization of Optimal Spectral Detuning of Fano Resonances

et al. 2018

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We analyze and optimize the performance of coupled plasmonic nanoantennas for refractive index sensing. The investigated structure supports a sub- and super-radiant mode that originates from the weak coupling of a dipolar and quadrupolar mode, resulting in a Fano-type spectral line shape. In our study, we vary the near-field coupling of the two modes and particularly examine the influence of the spectral detuning between them on the sensing performance. Surprisingly, the case of matched resonance frequencies does not provide the best sensor. Instead, we find that the right amount of coupling strength and spectral detuning allows for achieving the ideal combination of narrow line width and sufficient excitation strength of the subradiant mode, and therefore results in optimized sensor performance. Our findings are confirmed by experimental results and first-order perturbation theory. The latter is based on the resonant state expansion and provides direct access to resonance frequency shifts and line width changes as well as the excitation strength of the modes. Based on these parameters, we define a figure of merit that can be easily calculated for different sensing geometries and agrees well with the numerical and experimental results.

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Section: Resultsmentioning

confidence: 99%

Highly Sensitive Refractive Index Sensors with Plasmonic Nanoantennas−Utilization of Optimal Spectral Detuning of Fano Resonances

et al. 2018

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“…In Eq. 3, ϵ ' r is real permittivity, ϵ '' r is imaginary permittivity while f is the frequency that de nes the dispersive characteristics over the operating range of frequencies (20)(21)(22)(23)(24)(25)(26)(27)(28)(29)(30)(31)(32)(33)(34)(35). The instantaneous permittivity over the operating frequency range is measured because materials' permittivity exhibit a frequency dispersive phenomenon at high frequencies.…”

Section: A Sample's Permittivity Analysismentioning

confidence: 99%

Detection of Ethanol Concentration in Liquid Using a Double-Layered Resonator Operating at 5G-mm-Wave Frequencies

Qureshi

Abidin

Majid

et al. 2022

J. Electron. Mater.

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This paper discusses a new sensing technique for detecting ethanol concentration in aqueous solutions rapidly based on electromagnetic resonance. The sensor consists of two substrate layers and operates at 5G millimetre-wave frequencies (5G mm-wave). An experimental study of the new resonator's con guration is undertaken in determining the sensor's sensitivity. During the measurements, 6 samples were modelled with varying amounts of ethanol concentration in the water. The results showed that S 11 resonance moves linearly towards higher frequencies as the ethanol content increases. The resonance shifted by 178 MHz for every 10% increase in ethanol. As a result, the proposed 5G mm-Wave sensing technique based on a replaceable sensing layer proves to be suitable for rapid, accurate, and low-cost alcohol content detection in liquids.

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“…The eye-lentil unit (I) is simulated using scattering matrix theory to calculate reflectance, transmittance, extinction and absorption spectra of metallic structures [10]. Additionally, information about the electric and magnetic field distribution can be obtained.…”

Section: Modeling Of the Hydrogel Molecular Filter A Simulationmentioning

confidence: 99%

“…1, measured signals are conditioned to estimate the tear glucose levels via an developed inverse model of the system consisting of metamaterial, hydrogel, LED, photodiodes and disturbances. The main reasons why this new method has the potential to be extremely successful are its selectivity to glucose, guaranteed through the hydrogel; further its sensitivity in the physiological range that is accomplished by the metamaterial; its biocompatibility due to the characteristics of the noble metals of the metamaterial, and its non-degrading during the lifetime of the sensor [9], [10].…”

Section: Introductionmentioning

confidence: 99%

Dynamic modeling of the hydrogel molecular filter in a metamaterial biosensing system for glucose concentration estimation

Teutsch

Mesch

Gießen

et al. 2014

2014 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society

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We present a novel concept for ophthalmic glucose sensing using a biosensing system that consists of plasmonic dipole metamaterial covered by a layer of functionalized hydrogel. The metamaterial together with the hydrogel can be integrated into a contact lens. This optical sensor changes its properties such as reflectivity upon the ambient glucose concentration, which allows in situ measurements in the eye. The functionalization of the sensor with hydrogel allows for a glucose-specific detection, providing both selectivity and sensitivity. As a result of the presented work we derive a dynamic model of the hydrogel that can be used for further simulation studies.

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Regression Methods for Ophthalmic Glucose Sensing Using Metamaterials

Cited by 8 publications

References 28 publications

Highly Sensitive Refractive Index Sensors with Plasmonic Nanoantennas−Utilization of Optimal Spectral Detuning of Fano Resonances

Highly Sensitive Refractive Index Sensors with Plasmonic Nanoantennas−Utilization of Optimal Spectral Detuning of Fano Resonances

Detection of Ethanol Concentration in Liquid Using a Double-Layered Resonator Operating at 5G-mm-Wave Frequencies

Dynamic modeling of the hydrogel molecular filter in a metamaterial biosensing system for glucose concentration estimation

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