Title :
CY5 fluorescence measured with silicon photomultipliers
Author :
Santangelo, M.F. ; La Cono, S. ; Vasquez, P. ; Fallica, G. ; Conoci, S. ; Busacca, A.C. ; Pagano, R. ; Sciuto, E.L. ; Lombardo, Salvatore ; Libertino, S.
Author_Institution :
Distretto Tecnol. Sicilia Micro e Nano Sist., Catania, Italy
Abstract :
This paper presents an efficient optical biosensor set up for a low-level light detection, using fluorescent dyes and a novel Si-based detector. Fluorescence emitted by a traditional fluorophore, CY5, widely used as optical label in DNA microarrays, was detected using a 25 pixels Silicon photomultiplier (SiPM), a device formed by avalanche diodes operating in Geiger mode, in parallel connections. We measured the fluorescence current in different deposition (fluorophore concentration; solvent; salt concentration) and operation (angle of analysis, optical laser power, device gain) conditions. The characterization of DNA samples labeled with CY5 is also reported to demonstrate the detector potentiality to replace traditional optical readers commonly used in commercial devices.
Keywords :
DNA; avalanche diodes; biosensors; dyes; fluorescence; lab-on-a-chip; laser applications in medicine; molecular biophysics; optical sensors; photomultipliers; CY5 fluorescence measurement; DNA microarrays; Geiger mode; Si-based detector; SiPM; avalanche diodes; fluorescence current; fluorescent dyes; fluorophore; fluorophore concentration; low-level light detection; optical biosensor; optical label; optical laser power; optical readers; salt concentration; silicon photomultipliers; solvent concentration; Biomedical optical imaging; Current measurement; Fluorescence; Optical device fabrication; Optical sensors; Silicon; Stimulated emission; CY5; DNA recognition; SiPM; fluorescence detector; optical transduction;
Conference_Titel :
Biomedical Circuits and Systems Conference (BioCAS), 2014 IEEE
Conference_Location :
Lausanne
DOI :
10.1109/BioCAS.2014.6981718
