Simulation of an Asymmetric Photonic Structure Integrating Tamm Plasmon Polariton Modes and a Cavity Mode for Potential Urinary Glucose Sensing via Refractive Index Shifts
Hung-Che Chou, Rashid G. Bikbaev, Ivan V. Timofeev, Mon-Juan Lee, Wei Lee

TL;DR
This paper proposes a new photonic structure for detecting urinary glucose non-invasively by measuring refractive index changes with high sensitivity and precision.
Contribution
A novel asymmetric photonic structure integrating Tamm plasmon polariton modes and a cavity mode for refractive index sensing is introduced.
Findings
The structure achieves a sensitivity of 693 nm·RIU−1 and a maximum figure of merit of 935 RIU−1.
The design supports reflectance and transmittance measurements, enhancing its versatility for biosensing applications.
Abstract
Diabetes has become a global health challenge, driving the demand for innovative, non-invasive diagnostic technologies to improve glucose monitoring. Urinary glucose concentration, a reliable indicator of metabolic changes, provides a practical alternative for frequent monitoring without the discomfort of invasive methods. In this simulation-based study, we propose a novel asymmetric photonic structure that integrates Tamm plasmon polariton (TPP) modes and a cavity mode for high-precision refractive index sensing, with a conceptual focus on the potential detection of urinary glucose. The structure supports three distinct resonance modes, each with unique field localization. Both the TPP modes, confined at the metallic–dielectric interfaces, serve as stable references whose wavelengths are unaffected by refractive-index variations in human urine, whereas the cavity mode exhibits a…
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Taxonomy
TopicsPhotonic and Optical Devices · Plasmonic and Surface Plasmon Research · Photonic Crystals and Applications
