Optical fibre plasmonic biosensors

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Optical fibre plasmonic biosensors

Author : Christophe CAUCHETEUR

Publication date: September 10, 2012, Review date: June 14, 2021 | Lire en français

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Overview

ABSTRACT

Due to their very small dimensions, optical fiber sensors possess numerous assets for bio-detection in very small volumes and can yield in situ measurements via remote operation systems. Through various implementations, plasmonic sensors have been widely developed in the past few years. They are obtained by associating a portion of the optical fiber made sensitive to the surrounding medium refractive index with a nanometric scale layer of gold. This article summarizes the physical principle of the generation of surface plasmon resonance at the metal-dielectric interface. It then focuses on the main configurations of fiber optic plasmonic-based biosensors. Finally, it presents some practical examples.

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AUTHOR

  • Christophe CAUCHETEUR : Doctor of Engineering Sciences - Qualified F.R.S.-FNRS researcher at the Polytechnic Faculty of the University of Mons

 INTRODUCTION

Rapid, accurate detection of analytes (proteins, DNA strands, tumor markers, etc.) in low concentrations is crucial in many fields, such as medical diagnostics, environmental monitoring and quality control in the food chain.

Fiber optic sensors provide an elegant solution to this problem, since they provide a sensitive, compact platform in the hundred-micrometer range, and offer the possibility of in-situ measurements with remote instrumentation that can be located several meters or even several hundred meters from the measurement site.

In addition to these highly valued advantages, this type of sensor has all the benefits inherent in the use of fiber optics. Among other things, they are insensitive to electromagnetic interference, resistant to high temperatures and chemical corrosion, and can address several measurement points simultaneously.

However, an optical fiber is not intrinsically sensitive and selective to biochemical or biological compounds. In practice, it must first be made locally sensitive to a change in the refractive index of the external medium. This ability can result from various configurations, such as reducing the thickness of the optical cladding or photo-inscribing a periodic radiative structure into the core of the fiber. This sensitive part is then surface-treated to give it both affinity and selectivity with the biochemical species to be detected. In the case of plasmonic sensors, the surface of the optical fiber is first coated with a nanometric layer of gold, to generate a surface plasmon resonance. Bioreceptors are then grafted onto the gold, which have an affinity for the chemical species to be detected, also known as "ligands", according to an antibody-antigen model. Thus, by adsorption of the ligands, the bioreceptor layer undergoes a modification of its refractive index, which impacts the surface plasmon resonance and in turn affects the light wave propagated within the optical fiber.

The aim of this dossier is to present the physical principle underlying the generation of surface plasmon resonances in optical fibers. It then looks at the main configurations of fiber-optic plasmonic biosensors. Finally, concrete examples are discussed.

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KEYWORDS

Optical fibres   |   materials   |   sensors   |   proteins

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Optical fibre plasmonic biosensors

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