A kinetic model of amperometric enzyme electrodes of planar, cylindrical and spherical
shape factors is discussed. This paper considers the mathematical formulation of the kinetics …

This paper reports the mathematical modelling of homogeneous redox catalysis of
electrochemical reactions for the EE'C scheme. This model is described by the system of …

A mathematical model of immobilized enzyme system in a porous planar, cylindrical, and
spherical particle is discussed. The model is based on a nonlinear factor associated with …

In this contribution, a Langmuir–Hinshelwood–Hougen–Watson (LHHW) type kinetic model
is discussed for simple one-dimensional geometry of porous catalysts such as a sphere …

The approximate transient chronoamperometric limiting current generated from the
electrochemical reaction in a rotating disc electrode for second-order ECE reactions is …

The theoretical model for a packed porous catalytic particle of the slab, cylindrical, and
spherical geometries shape in fixed-bed electrochemical reactors is discussed. These …

A theoretical model for the enzyme catalysed isomerisation reaction in a packed-bed
reactors made up of microporous particles is discussed. The system is described in terms of …

The transient response of amperometric enzyme-based biosensors working in trigger mode
is discussed. Nonlinear time-dependent partial differential equations for Michaelis–Menten …

A theoretical model for homogeneous redox catalysis of electrochemical reactions for the
one-electron two-step reaction scheme is discussed. This model is described by the system …

In trigger mode, an amperometric biosensor is a form of a biosensor where the coupling of
various enzymes improves the specificity and sensitivity of the detecting event. In this paper …