Add to ORKGABSTRACT: The electrical impedance data of different nematic liquid-crystal cells are analyzed in the framework of a model in which the diffusion of mobile ions in the bulk is governed by a fractional diffusion equation of distributed order. The boundary conditions at the electrodes limiting the sample are described by an integro-differential equation governing the kinetic at the interface that embodies, in particular, the usual kinetic equation for describing the adsorption−desorption process at the electrodes but is expressed in terms of a temporal kernel that can be chosen to cover scenarios that are not suitably described within the usual framework of blocking electrodes. The analysis is carried out by supposing that the positive and ne...
We investigate the frequency dependence of the real and imaginary parts of the electric impedance of...
This paper presents the application of fractional calculus tools, i.e. fractional order impedance an...
We investigate dilute solutions of different salts (KClO3, K2SO4, and CdCl2H2O) dissolved in Milli-Q...
Two empirical, but plausible, previously published independent generalizations of the standard Poiss...
We establish, in general terms, the conditions to be satisfied by a time-fractional approach formula...
The influence of the electrode properties on the electric response of nematic liquid crystal cell li...
International audienceIn this paper, identification of the diffusion impedance parameters of an elec...
This paper addresses the electrochemical impedance of diffusion in a spatially restricted layer. A p...
The voltage decay time of a nematic liquid crystal cell submitted to a large difference of electrica...
The combination of different electrical measurements on liquid crystal (display) cells yields a cons...
The electrical response of an electrolytic cell to an external ac excitation is analysed by solving ...
The Poisson–Nernst–Planck (PNP) diffusional model is a successful theoretical framework to investiga...
Anomalous subdiffusion governs the processes which are not energetically driven, on a molecular scal...
The analysis of Macdonald for electrolytes is generalized to the case in which two groups of ions ar...
International audienceUsing an accurate thin-layer cell, the electrochemical impedance corresponding...
We investigate the frequency dependence of the real and imaginary parts of the electric impedance of...
This paper presents the application of fractional calculus tools, i.e. fractional order impedance an...
We investigate dilute solutions of different salts (KClO3, K2SO4, and CdCl2H2O) dissolved in Milli-Q...
Two empirical, but plausible, previously published independent generalizations of the standard Poiss...
We establish, in general terms, the conditions to be satisfied by a time-fractional approach formula...
The influence of the electrode properties on the electric response of nematic liquid crystal cell li...
International audienceIn this paper, identification of the diffusion impedance parameters of an elec...
This paper addresses the electrochemical impedance of diffusion in a spatially restricted layer. A p...
The voltage decay time of a nematic liquid crystal cell submitted to a large difference of electrica...
The combination of different electrical measurements on liquid crystal (display) cells yields a cons...
The electrical response of an electrolytic cell to an external ac excitation is analysed by solving ...
The Poisson–Nernst–Planck (PNP) diffusional model is a successful theoretical framework to investiga...
Anomalous subdiffusion governs the processes which are not energetically driven, on a molecular scal...
The analysis of Macdonald for electrolytes is generalized to the case in which two groups of ions ar...
International audienceUsing an accurate thin-layer cell, the electrochemical impedance corresponding...
We investigate the frequency dependence of the real and imaginary parts of the electric impedance of...
This paper presents the application of fractional calculus tools, i.e. fractional order impedance an...
We investigate dilute solutions of different salts (KClO3, K2SO4, and CdCl2H2O) dissolved in Milli-Q...