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Tuning sensitivity of surface plasmon resonance gas sensor based on multilayer black phosphorous

Bhishma Karki, Youssef Trabelsi, Partha Sarkar, Amrindra Pal, Arun Uniyal

2024Modern Physics Letters B76 citationsDOI

Abstract

We investigated a gas sensor that makes use of the surface plasmon resonance (SPR) effect in a thick layer of gold (Au), copper (Cu), ZnO, and multilayer black phosphorous (BP). The suitability of the proposed gas sensor was investigated for a range of analyte gases recognized for their toxicity, greenhouse effect, or flammability. The proposed gas sensor obtains a maximum sensitivity of 258.77°/RIU with a remarkable full width at half maximum (FWHM) of 7.12°, detection accuracy (DA) of 0.14/°, and Figure of merit (FoM) of 36.22. The result of our enhanced numerical analysis indicates that the performance of a multilayer BP is enhanced when compared to a conventional gas sensor. As a result, using a SiO 2 prism to sense different gases at a wavelength of 633[Formula: see text]nm, the suggested gas sensor may be more advantageous. Moreover, the maximum sensitivity of 374.31/RIU is obtained with a remarkable DA of 0.11° and FoM of 37.63/RIU to detect NO 2 gas sensing to maintain the [Formula: see text]value. The gas sensor performance is high at different refractive indices for gas analyte (1–1.07). The performance of the proposed gas sensor is superior to that of the existing gas sensors.

Topics & Concepts

Surface plasmon resonanceMaterials scienceSensitivity (control systems)Resonance (particle physics)Black phosphorusSurface plasmonLocalized surface plasmonPlasmonOptoelectronicsOpticsAtomic physicsNanotechnologyPhysicsNanoparticleElectronic engineeringEngineeringPlasmonic and Surface Plasmon ResearchPhotonic and Optical DevicesAnalytical Chemistry and Sensors
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