Chemical silicon surface modification and bioreceptor attachment to develop competitive integrated photonic biosensors

Chemical silicon surface modification and bioreceptor attachment to develop competitive integrated photonic biosensors

Methodology for the functionalization of silicon-based materials employed for the development of photonic label-free nanobiosensors is reported. The studied functionalization based on organosilane chemistry allowed the direct attachment of biomolecules in a single step, maintaining their bioavailabi...

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Veröffentlicht in:Analytical and bioanalytical chemistry 2012-12, Vol.404 (10), p.2831-2840
Hauptverfasser: Escorihuela, Jorge, Bañuls, María José, Castelló, Javier García, Toccafondo, Veronica, García-Rupérez, Jaime, Puchades, Rosa, Maquieira, Ángel
Format: Artikel
Sprache:eng
Schlagworte:
Analysis
Analytical Chemistry
Animals
Antibodies - immunology
Attachment
Bacteria
Biochemistry
Biomolecules
Biosensing Techniques - instrumentation
Biosensors
Cattle
Characterization and Evaluation of Materials
Chemical properties
Chemistry
Chemistry and Materials Science
DNA microarrays
DNA, Bacterial - isolation & purification
Equipment Design
Escherichia coli - isolation & purification
Escherichia coli Infections - diagnosis
Food Science
Humans
Immobilization
Immobilized Proteins - chemistry
Interferometry
Laboratory Medicine
Limit of Detection
Monitoring/Environmental Analysis
Nanocomposites
Nanomaterials
Nanostructure
Nanostructures - chemistry
Nanostructures - ultrastructure
Nucleic Acid Hybridization
Oligonucleotide Array Sequence Analysis
Optics and Photonics - instrumentation
Original Paper
Photonics
Serum Albumin, Bovine - chemistry
Serum Albumin, Bovine - immunology
Silicon - chemistry
Silicon compounds
Surface Properties
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Zusammenfassung:Methodology for the functionalization of silicon-based materials employed for the development of photonic label-free nanobiosensors is reported. The studied functionalization based on organosilane chemistry allowed the direct attachment of biomolecules in a single step, maintaining their bioavailability. Using this immobilization approach in probe microarrays, successful specific detection of bacterial DNA is achieved, reaching hybridization sensitivities of 10 pM. The utility of the immobilization approach for the functionalization of label-free nanobiosensors based on photonic crystals and ring resonators was demonstrated using bovine serum albumin (BSA)/anti-BSA as a model system.
ISSN:1618-2642
1618-2650
DOI:10.1007/s00216-012-6280-4