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Next-generation photonic-crystal-fiber-based plasmonic sensor for heavy metal detection via spectroscopy and refractive index integration

Ayushman Ramola, Amit Kumar Shakya, Anurag Vidyarthi, Surinder Singh, Eliran Talker, Arik Bergman

202510 citationsDOI

Abstract

Heavy metals (<i>HM</i>) contamination in water poses a serious threat to agricultural sustainability, environmental safety, human and animal health. <i>HM</i> contaminants like lead, cadmium, copper, and mercury can accumulate in crops, soil, and water systems, entering the food chain and impacting ecological balance. These <i>HM</i> containments are one of the main causes of life threating diseases. This research addresses the need for a high-precision, photonic crystal fiber (<i>PCF</i>) based surface plasmon resonance (<i>SPR</i>) sensor integrated with spectroscopy analysis, which is capable of detecting <i>HM</i> traces in water.

Topics & Concepts

PlasmonMaterials sciencePhotonic-crystal fiberRefractive indexPhotonic crystalSpectroscopyOptoelectronicsOptical fiberMetalPhotonicsOpticsPhysicsWavelengthQuantum mechanicsMetallurgyPlasmonic and Surface Plasmon ResearchOptical Coatings and GratingsPhotonic and Optical Devices
Next-generation photonic-crystal-fiber-based plasmonic sensor for heavy metal detection via spectroscopy and refractive index integration | Litcius