Trends in the design of wavelength-based optical fibre biosensors (2008–2018)

During the last decades, both governments and companies have been committed to the continuous checking of biological parameters, which can prevent extra costs to administrations. A very efficient way to address this issue is by designing biosensors. This contribution reviews the advances made using...

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Published inBiosensors and bioelectronics. X Vol. 1; p. 100015
Main Authors Socorro-Leránoz, A.B., Santano, D., Del Villar, I., Matias, I.R.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.06.2019
Elsevier
Subjects
Biosensors
Fabry–Pérot
Fibre Bragg gratings
Interferometry
Localized surface plasmon resonance
Long-period fibre Bragg gratings
Lossy mode resonance
Optical fibre
Surface plasmon resonance
Optical fibre
Fabry–Pérot
Fibre Bragg gratings
Surface plasmon resonance
Long-period fibre Bragg gratings
Lossy mode resonance
Biosensors
Localized surface plasmon resonance
Interferometry
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Abstract During the last decades, both governments and companies have been committed to the continuous checking of biological parameters, which can prevent extra costs to administrations. A very efficient way to address this issue is by designing biosensors. This contribution reviews the advances made using optical fibre technology, which have lately agglutinated much of the scientific interest related to the development of biosensors. However, the wide number of publications describing the use of optical fibre for detecting biomarkers has probably blurred the main goal: obtaining portable, simple, easy-to-handle and cost-effective biosensors. With this purpose, this contribution presents some optical fibre structures which have been analysed in terms of several optical parameters of interest from a photonics point of view: sensitivity, quality factor, full width at half minimum, limit of detection and figure of merit. This has made it possible to classify the most advanced optical fibre sensing techniques and, hence, their suitability when developing biosensing applications. •A thorough review on a hot topic in sensors field, fiber-optic biosensors, is offered.•The main optical platforms are compared on the basis of different parameters.•The relation between sensitivity, resolution and FOM with the LOD is discussed.•A ranking of optical platforms is given as a function of the different parameters.
AbstractList During the last decades, both governments and companies have been committed to the continuous checking of biological parameters, which can prevent extra costs to administrations. A very efficient way to address this issue is by designing biosensors. This contribution reviews the advances made using optical fibre technology, which have lately agglutinated much of the scientific interest related to the development of biosensors. However, the wide number of publications describing the use of optical fibre for detecting biomarkers has probably blurred the main goal: obtaining portable, simple, easy-to-handle and cost-effective biosensors. With this purpose, this contribution presents some optical fibre structures which have been analysed in terms of several optical parameters of interest from a photonics point of view: sensitivity, quality factor, full width at half minimum, limit of detection and figure of merit. This has made it possible to classify the most advanced optical fibre sensing techniques and, hence, their suitability when developing biosensing applications.
During the last decades, both governments and companies have been committed to the continuous checking of biological parameters, which can prevent extra costs to administrations. A very efficient way to address this issue is by designing biosensors. This contribution reviews the advances made using optical fibre technology, which have lately agglutinated much of the scientific interest related to the development of biosensors. However, the wide number of publications describing the use of optical fibre for detecting biomarkers has probably blurred the main goal: obtaining portable, simple, easy-to-handle and cost-effective biosensors. With this purpose, this contribution presents some optical fibre structures which have been analysed in terms of several optical parameters of interest from a photonics point of view: sensitivity, quality factor, full width at half minimum, limit of detection and figure of merit. This has made it possible to classify the most advanced optical fibre sensing techniques and, hence, their suitability when developing biosensing applications. •A thorough review on a hot topic in sensors field, fiber-optic biosensors, is offered.•The main optical platforms are compared on the basis of different parameters.•The relation between sensitivity, resolution and FOM with the LOD is discussed.•A ranking of optical platforms is given as a function of the different parameters.
ArticleNumber 100015
Author Santano, D.
Socorro-Leránoz, A.B.
Del Villar, I.
Matias, I.R.
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Keywords Optical fibre
Fabry–Pérot
Fibre Bragg gratings
Surface plasmon resonance
Long-period fibre Bragg gratings
Lossy mode resonance
Biosensors
Localized surface plasmon resonance
Interferometry
Language English
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Snippet During the last decades, both governments and companies have been committed to the continuous checking of biological parameters, which can prevent extra costs...
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SubjectTerms Biosensors
Fabry–Pérot
Fibre Bragg gratings
Interferometry
Localized surface plasmon resonance
Long-period fibre Bragg gratings
Lossy mode resonance
Optical fibre
Surface plasmon resonance
Title Trends in the design of wavelength-based optical fibre biosensors (2008–2018)
URI https://dx.doi.org/10.1016/j.biosx.2019.100015
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