Add to ORKGIn 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
Abstract. A mathematical model of amperometric biosensors has been developed. The model bases on non...
We investigate the stochastic sensor response in equilibrium, taking into account competitive adsorp...
This paper investigates multicomponent gas adsorption at the active surface of plasmonic chemical se...
In different kinds of surface-based chemical and biological micro/nanosensors, interpretation of the...
In different kinds of surface-based chemical and biological micro/nanosensors, interpretation of the...
The importance of adsorption-based biochemical/biological sensors in biochemistry and biophysics is ...
Real-time in situ operation of bio/chemical sensors assumes detection of chemical substances or biol...
An approximate model for efficient analysis of stochastic time response of microfluidic biosensors i...
An approximate model for efficient analysis of stochastic time response of microfluidic biosensors i...
A model of stochastic time response of adsorption-based microfluidic biosensors is presented, that c...
Recent advances in nanotechnol. produced the 1st sensor transducers capable of resolving the adsorpt...
The optimization-based quantitative determination of multianalyte concentrations from biased biosens...
In this study we have developed, for the first time, the comprehensive theoretical model of the fluc...
In this study we have developed, for the first time, the comprehensive theoretical model of the fluc...
In order to allow for multiscale modeling of complex systems we focus on various approaches to model...
Abstract. A mathematical model of amperometric biosensors has been developed. The model bases on non...
We investigate the stochastic sensor response in equilibrium, taking into account competitive adsorp...
This paper investigates multicomponent gas adsorption at the active surface of plasmonic chemical se...
In different kinds of surface-based chemical and biological micro/nanosensors, interpretation of the...
In different kinds of surface-based chemical and biological micro/nanosensors, interpretation of the...
The importance of adsorption-based biochemical/biological sensors in biochemistry and biophysics is ...
Real-time in situ operation of bio/chemical sensors assumes detection of chemical substances or biol...
An approximate model for efficient analysis of stochastic time response of microfluidic biosensors i...
An approximate model for efficient analysis of stochastic time response of microfluidic biosensors i...
A model of stochastic time response of adsorption-based microfluidic biosensors is presented, that c...
Recent advances in nanotechnol. produced the 1st sensor transducers capable of resolving the adsorpt...
The optimization-based quantitative determination of multianalyte concentrations from biased biosens...
In this study we have developed, for the first time, the comprehensive theoretical model of the fluc...
In this study we have developed, for the first time, the comprehensive theoretical model of the fluc...
In order to allow for multiscale modeling of complex systems we focus on various approaches to model...
Abstract. A mathematical model of amperometric biosensors has been developed. The model bases on non...
We investigate the stochastic sensor response in equilibrium, taking into account competitive adsorp...
This paper investigates multicomponent gas adsorption at the active surface of plasmonic chemical se...