A better understanding of ion-transport mechanisms requires separate information on the equilibrium (partitioning) and kinetic (diffusivity) properties of the membranes with respect to ions. This work presents a novel non-stationary-diffusion method to determine salt diffusion and partitioning coefficients under (quasi)-linear conditions of relatively small concentration differences. An ion-exchange membrane supported by a relatively thick coarse-porous support (glass frit) is placed in a two-compartment stirred cell. The salt concentration in one compartment is kept stationary during the measurement whereas in the other compartment, the initial solution is rapidly replaced by a solution of different concentration. As a result, there is a t...
Ion exchange membranes (IEMs) are used for selective transport of ions between two solutions. These ...
Ionic diffusion coefficients in the membrane are needed for the modelling of ion transport in ion-ex...
Ion exchange membranes (IEMs) are used for selective transport of ions between two solutions. These ...
A better understanding of ion-transport mechanisms requires separate information on the equilibrium ...
Electrically-driven membrane processes find ever more versatile applications. Ion-exchange membranes...
The nonequilibrium electrical potentials across an artificial membrane bathed by solutions of a sing...
Optimization of membrane separation processes rely on the accurate determination of some parameters ...
This work presents an analytical solution to the differential equations that govern the electrically...
This study presents a new framework for extracting single ion diffusion coefficients in ion exchange...
Ion-exchange membranes are crucial for realizing high-performance electrochemical devices. They exhi...
International audienceA novel experimental method and its associated model are proposed for the simu...
Ion exchange membrane (IEM) performance in electrochemical processes such as fuel cells, redox flow ...
A method is presented by which the steady-state properties of an homogeneous, permselective membrane...
The major part of this thesis is concerned with the study of transport and diffusion processes in io...
For effective use of advanced engineering models of nanofiltration quality of experimental input is ...
Ion exchange membranes (IEMs) are used for selective transport of ions between two solutions. These ...
Ionic diffusion coefficients in the membrane are needed for the modelling of ion transport in ion-ex...
Ion exchange membranes (IEMs) are used for selective transport of ions between two solutions. These ...
A better understanding of ion-transport mechanisms requires separate information on the equilibrium ...
Electrically-driven membrane processes find ever more versatile applications. Ion-exchange membranes...
The nonequilibrium electrical potentials across an artificial membrane bathed by solutions of a sing...
Optimization of membrane separation processes rely on the accurate determination of some parameters ...
This work presents an analytical solution to the differential equations that govern the electrically...
This study presents a new framework for extracting single ion diffusion coefficients in ion exchange...
Ion-exchange membranes are crucial for realizing high-performance electrochemical devices. They exhi...
International audienceA novel experimental method and its associated model are proposed for the simu...
Ion exchange membrane (IEM) performance in electrochemical processes such as fuel cells, redox flow ...
A method is presented by which the steady-state properties of an homogeneous, permselective membrane...
The major part of this thesis is concerned with the study of transport and diffusion processes in io...
For effective use of advanced engineering models of nanofiltration quality of experimental input is ...
Ion exchange membranes (IEMs) are used for selective transport of ions between two solutions. These ...
Ionic diffusion coefficients in the membrane are needed for the modelling of ion transport in ion-ex...
Ion exchange membranes (IEMs) are used for selective transport of ions between two solutions. These ...