Linearity improvement of Cy5 fluorescence concentration detection using series photodetector frequency circuit system with ITO–PolySi–metal–semiconductor–metal photodetector and its application for DNA detection and bacterial identification

In this study, the 48MHz series photodetector frequency circuit system with ITO–PolySi–metal–semiconductor–metal photodetector was developed for Cy5 fluorescence detection of DNA probe ET996. The theory analysis of series photodetector frequency circuit system showed that the circuit parameters such...

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Bibliographic Details
Published in:Optik (Stuttgart) 2013-11, Vol.124 (21), p.4963-4970
Main Authors: Hsu, Yuh Ming, Chang, Chung Cheng
Format: Article
Language:English
Subjects:
Bacteria
Capacitance
Circuits
Cy5
Deoxyribonucleic acid
DNA probe
Dyes
Edwardsiella
Fluorescence
Fluorescence detection
Laser
Linearity
photodetector
Photodetectors
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Summary:In this study, the 48MHz series photodetector frequency circuit system with ITO–PolySi–metal–semiconductor–metal photodetector was developed for Cy5 fluorescence detection of DNA probe ET996. The theory analysis of series photodetector frequency circuit system showed that the circuit parameters such as Cp and A (tan θ) can be applied to improve the frequency sensitivity. In this research, the lower capacitance of ITO–PolySi–metal–semiconductor–metal photodetector (Cp) was made and selected to improve the frequency sensitivity. According to derived theory of A adjustment, the capacitance match Cm and bias of ITO–PolySi–metal–semiconductor–metal photodetector were adjusted to improve the frequency sensitivity for detection of fluorescence dye concentration. On the basis of optimal conditions of capacitance match Cm and bias of photodetector, the detection limit of ET996-Cy5 fluorescence dye concentration 2pmol/L can be measured by 48MHz sensor system. Moreover, the detection linearity of 48MHz sensor system was improved and the frequency shift ΔF was linearly related to the logarithm of fluorescence dye concentration in the range 2pmol/L–20μmol/L; meanwhile, through the feature of probe uniqueness, Edwardsiella BCRC 10670 DNA and fluorescence probe ET996-Cy5 can be successfully judged for hybridization reaction.
ISSN:0030-4026
1618-1336
DOI:10.1016/j.ijleo.2013.03.041