Add to ORKGAbstract: The solution phase transport and direct electrode kinetics of electro-enzymes are described in terms of a simple model in which the steady state reaction/diffusion equation for enzyme is solved subject to physically realistic boundary conditions. Two physically realizable situations are described: the semi infinite and the membrane bounded case. Limiting expressions for the reaction flux are derived and the kinetic possibilities discussed geometrically in terms of kinetic case diagrams
The mathematical model proposed by Chapman and Antano (Electrochimica Acta, 56 (2010), 128–132) for ...
In this thesis, the studies of diffusion and the electrochemical systems based on the modelling and ...
A powerful theoretical approach to solve electrochemical reaction-diffusion problems with fast homog...
A complete theoretical treatment is presented for an enzyme electrode where electron transfer from t...
The work in this thesis is concerned with the solution of non-linear second order differential equat...
The theoretical models for ISEs almost exclusively assume thermodynamic equilibrium at the membrane/...
The theoretical models for ISEs almost exclusively assume thermodynamic equilibrium at the membrane/...
The theoretical models for ISEs almost exclusively assume thermodynamic equilibrium at the membrane/...
In this chapter, to facilitate understanding and preparing the basic knowledge for rotating electrod...
AbstractThe purpose of this work is to contribute to the understanding of the fundamental kinetic pr...
International audienceIn Protein Film Voltammetry, a redox enzyme is immobilized on a rotating elect...
International audienceIn Protein Film Voltammetry, a redox enzyme is immobilized on a rotating elect...
This paper presents the approximate analytical expression for transient and steady-state concentrati...
The deliverable reports on the progress in the development of a kinetic and electrochemical model. K...
This work is dedicated to a multi-scale modelling of coupled diffusion and reaction in a porous micr...
The mathematical model proposed by Chapman and Antano (Electrochimica Acta, 56 (2010), 128–132) for ...
In this thesis, the studies of diffusion and the electrochemical systems based on the modelling and ...
A powerful theoretical approach to solve electrochemical reaction-diffusion problems with fast homog...
A complete theoretical treatment is presented for an enzyme electrode where electron transfer from t...
The work in this thesis is concerned with the solution of non-linear second order differential equat...
The theoretical models for ISEs almost exclusively assume thermodynamic equilibrium at the membrane/...
The theoretical models for ISEs almost exclusively assume thermodynamic equilibrium at the membrane/...
The theoretical models for ISEs almost exclusively assume thermodynamic equilibrium at the membrane/...
In this chapter, to facilitate understanding and preparing the basic knowledge for rotating electrod...
AbstractThe purpose of this work is to contribute to the understanding of the fundamental kinetic pr...
International audienceIn Protein Film Voltammetry, a redox enzyme is immobilized on a rotating elect...
International audienceIn Protein Film Voltammetry, a redox enzyme is immobilized on a rotating elect...
This paper presents the approximate analytical expression for transient and steady-state concentrati...
The deliverable reports on the progress in the development of a kinetic and electrochemical model. K...
This work is dedicated to a multi-scale modelling of coupled diffusion and reaction in a porous micr...
The mathematical model proposed by Chapman and Antano (Electrochimica Acta, 56 (2010), 128–132) for ...
In this thesis, the studies of diffusion and the electrochemical systems based on the modelling and ...
A powerful theoretical approach to solve electrochemical reaction-diffusion problems with fast homog...