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Modeling and analysis of discrete particle detection in wide-field surface plasmon resonance microscopy

Qais M. Al‐Bataineh, Ahmad Telfah, Carlos J. Tavares, Roland Hergenröder

2024Sensors and Actuators A Physical13 citationsDOIOpen Access PDF

Abstract

Wide-field surface plasmon resonance microscopy (WF-SPRM), based on Kretschmann’s configuration, is a powerful technique for detecting nano-objects in solution. In this study, key parameters for building a highly sensitive WF-SPRM are optimized, including laser wavelength, prism refractive index, numerical aperture of the objective, and gold layer thickness. A medium model describes the surface plasmon resonance (SPR) sensor principle, treating molecules bound on the sensor surface as an effective medium with an effective refractive index and thickness. On the other hand, the SPR discrete particle model is introduced to describe the detection principle for discrete particles. Theoretical, numerical, and experimental analyses are conducted, and the calculated intensity profiles of single and double nanoparticles from the discrete particle model describe the experimental profiles well. Furthermore, the influence of coating the gold layer with a dielectric layer on the SPR sensitivity is investigated for varying refractive indices.

Topics & Concepts

Surface plasmon resonanceMicroscopyParticle (ecology)Field (mathematics)Surface (topology)Materials scienceOpticsPhysicsNanotechnologyNanoparticleGeologyMathematicsGeometryOceanographyPure mathematicsPlasmonic and Surface Plasmon ResearchPhotonic and Optical DevicesNanowire Synthesis and Applications
Modeling and analysis of discrete particle detection in wide-field surface plasmon resonance microscopy | Litcius