Numerical simulation of transient response of chemical and biological micro/nanofabricated sensors operating in multianalyte environments

Numerical simulation of transient response of chemical and biological micro/nanofabricated sensors operating in multianalyte environments

In different kinds of surface-based chemical and biological micro/nanosensors, interpretation of the experimentally obtained data is performed based on approximate solutions for the sensor response, valid for the case of single-analyte samples. A question arises whether or not the approximate models...

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Bibliographic Details
Published in:2014 29th International Conference on Microelectronics Proceedings - MIEL 2014 pp. 187 - 190
Main Authors: Radulovic, K. T., Jokic, I. M., Frantlovic, M. P., Djuric, Z. G.
Format: Conference Proceeding
Language:English
Published: IEEE 01-05-2014
Subjects:
Adsorption
Analytical models
Approximation methods
Equations
Mathematical model
Sensors
Surface treatment
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Summary:In different kinds of surface-based chemical and biological micro/nanosensors, interpretation of the experimentally obtained data is performed based on approximate solutions for the sensor response, valid for the case of single-analyte samples. A question arises whether or not the approximate models used for experimental data fitting in the case of a single analyte are also applicable for multianalyte environments. We test the validity of the two-compartment model for approximation of sensor transient response in the case of concurrent binding of multiple analytes on the sensing surface, by comparing the approximate response with the numerical simulation of the dynamics of a real adsorption experiment.
ISBN:1479952958
9781479952953
DOI:10.1109/MIEL.2014.6842117