A fluorescent one-dimensional photonic crystal for label-free biosensing based on BLOCH surface waves

A fluorescent one-dimensional photonic crystal for label-free biosensing based on BLOCH surface waves

A one-dimensional photonic crystal (1DPC) based on a planar stack of dielectric layers is used as an optical transducer for biosensing, upon the coupling of TE-polarized Bloch Surface Waves (BSW). The structure is tailored with a polymeric layer providing a chemical functionality facilitating the co...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Vol. 13; no. 2; pp. 2011 - 2022
Main Authors: Frascella, Francesca, Ricciardi, Serena, Rivolo, Paola, Moi, Valeria, Giorgis, Fabrizio, Descrovi, Emiliano, Michelotti, Francesco, Munzert, Peter, Danz, Norbert, Napione, Lucia, Alvaro, Maria, Bussolino, Federico
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 05-02-2013
Molecular Diversity Preservation International (MDPI)
Subjects:
Biosensing Techniques - methods
bragg mirrors
Crystallization
Electronic mail systems
fluorescence
Glass substrates
GTP-Binding Proteins - metabolism
label-free sensing
Lasers
multilayers
Optics
Photons
Protein Binding
Sensors
Spectrometry, Fluorescence
Spectroscopy, Fourier Transform Infrared
Staining and Labeling
surface electromagnetic waves
Surface Properties
Italy
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Summary:A one-dimensional photonic crystal (1DPC) based on a planar stack of dielectric layers is used as an optical transducer for biosensing, upon the coupling of TE-polarized Bloch Surface Waves (BSW). The structure is tailored with a polymeric layer providing a chemical functionality facilitating the covalent binding of orienting proteins needed for a subsequent grafting of antibodies in an immunoassay detection scheme. The polymeric layer is impregnated with Cy3 dye, in such a way that the photonic structure can exhibit an emissive behavior. The BSW-coupled fluorescence shift is used as a means for detecting refractive index variations occurring at the 1DPC surface, according to a label-free concept. The proposed working principle is successfully demonstrated in real-time tracking of protein G covalent binding on the 1DPC surface within a fluidic cell.
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ISSN:1424-8220
1424-8220
DOI:10.3390/s130202011