This paper presents one-dimensional (1-D) and two-dimensional (2-D) in-space mathematical models for amperometric biosensors with an outer perforated membrane. The biosensor action was modelled by reaction-diffusion equations with a nonlinear term representing the Michaelis-Menten kinetics of an enzymatic reaction. The conditions at which the 1-D model can be applied to simulate the biosensor response accurately were investigated numerically. The accuracy of the biosensor response simulated by using 1-D model was evaluated by the response simulated with the corresponding 2-D model. A procedure for a numerical evaluation of the effective diffusion coefficient to be used in 1-D model was proposed. The numerically calculated effective diffusio...
A mathematical model of biosensor acting under parallel substrates conversion is investigated in thi...
This paper presents a one-dimensional-in-space mathematical model of the amperometric biosensor with...
Computational modelling of a biosensor in which chemical amplification by synergistic substrates tak...
Abstract. This paper presents a two-dimensional-in-space mathematical model of amperometric biosenso...
A two-dimensional-in-space mathematical model of amperometric biosensors with selective and perforat...
One-dimensional model of biosensor with a perforated membrane that approximates two-dimensional mode...
This article presents a one-dimensional model for a biosensor with perforated and selective membrane...
This paper presents mathematical models of potentiometric as well as amperometric biosensors, based ...
This paper presents mathematical models of potentiometric as well as amper-ometric biosensors, based...
Abstract. This paper presents a one-dimensional-in-space mathematical model of an amperometric biose...
This paper presents a two-dimensional-in-space mathematical model ofbiosensors based on an array of ...
This paper presents a one-dimensional-in-space mathematical model of an amperometric biosensor. The ...
Abstract. This paper presents a two-dimensional-in-space mathematical model of a sensor system based...
A mathematical model of amperometric biosensors has been developed to simulate the biosensor respons...
The paper presents a one-dimensional-in-space mathem-atical model of a peroxidase-based fluorescent ...
A mathematical model of biosensor acting under parallel substrates conversion is investigated in thi...
This paper presents a one-dimensional-in-space mathematical model of the amperometric biosensor with...
Computational modelling of a biosensor in which chemical amplification by synergistic substrates tak...
Abstract. This paper presents a two-dimensional-in-space mathematical model of amperometric biosenso...
A two-dimensional-in-space mathematical model of amperometric biosensors with selective and perforat...
One-dimensional model of biosensor with a perforated membrane that approximates two-dimensional mode...
This article presents a one-dimensional model for a biosensor with perforated and selective membrane...
This paper presents mathematical models of potentiometric as well as amperometric biosensors, based ...
This paper presents mathematical models of potentiometric as well as amper-ometric biosensors, based...
Abstract. This paper presents a one-dimensional-in-space mathematical model of an amperometric biose...
This paper presents a two-dimensional-in-space mathematical model ofbiosensors based on an array of ...
This paper presents a one-dimensional-in-space mathematical model of an amperometric biosensor. The ...
Abstract. This paper presents a two-dimensional-in-space mathematical model of a sensor system based...
A mathematical model of amperometric biosensors has been developed to simulate the biosensor respons...
The paper presents a one-dimensional-in-space mathem-atical model of a peroxidase-based fluorescent ...
A mathematical model of biosensor acting under parallel substrates conversion is investigated in thi...
This paper presents a one-dimensional-in-space mathematical model of the amperometric biosensor with...
Computational modelling of a biosensor in which chemical amplification by synergistic substrates tak...