Add to ORKGThe recently introduced diffusion indicator (Haonan et al, J. Electroanal. Chem., 2019, 855, 113602) is generalised to characterise local mass transport fluxes to a non-uniformly accessible electrode to probe both qualitatively and quantitatively the nature of the diffusion to different parts of an electrode surface at different times following electrochemical perturbation. The approach is illustrated in respect of diffusion to a truncated sphere on a plane surface. The relative contributions of thin layer, linear and convergent diffusion following potential step chronoamperometry are evaluated. Comparison is made with analogous measurements on a micro-disc electrode. The results have implications for the transients accompanying the impact ...
© 2015 American Chemical Society. The diffusion of charge transfer between electroactive sites on a ...
Mass transport at cylindrical and spherical microelectrodes involving diffusion and migration is ana...
Recent progress in nanoparticle electrochemistry has enabled the detection of individual nanoparticl...
A parameter, the diffusion indicator α, introduced in this work, is derived from chronoamperometric ...
Nuances of the linear diffusion layer approximation are examined for slow charge transfer reactions ...
Single-entity electrochemical analysis involving Fickian charge diffusion over the surface of a (tru...
This thesis develops diffusion models for modern electrochemical experiments involving the transpor...
Explicit analytical expressions for the diffusion layer thicknesses of disk and band electrodes of a...
In this thesis, the studies of diffusion and the electrochemical systems based on the modelling and ...
The diffusion indicator α described by Haonan and Compton (Journal of Electroanalytical Chemistry, 8...
An indicator to character diffusion is introduced to quantify the extent of linear and convergent di...
Claims made by literature use models that do not account for mass transport that is likely to affect...
The strongly implicit procedure is used to model the diffusion-only chronoamperometric responses of ...
A key concept underpinning electrochemical science is that of the diffusion layer - the zone of depl...
Understanding mass transport is prerequisite to all quantitative analysis of electrochemical experim...
© 2015 American Chemical Society. The diffusion of charge transfer between electroactive sites on a ...
Mass transport at cylindrical and spherical microelectrodes involving diffusion and migration is ana...
Recent progress in nanoparticle electrochemistry has enabled the detection of individual nanoparticl...
A parameter, the diffusion indicator α, introduced in this work, is derived from chronoamperometric ...
Nuances of the linear diffusion layer approximation are examined for slow charge transfer reactions ...
Single-entity electrochemical analysis involving Fickian charge diffusion over the surface of a (tru...
This thesis develops diffusion models for modern electrochemical experiments involving the transpor...
Explicit analytical expressions for the diffusion layer thicknesses of disk and band electrodes of a...
In this thesis, the studies of diffusion and the electrochemical systems based on the modelling and ...
The diffusion indicator α described by Haonan and Compton (Journal of Electroanalytical Chemistry, 8...
An indicator to character diffusion is introduced to quantify the extent of linear and convergent di...
Claims made by literature use models that do not account for mass transport that is likely to affect...
The strongly implicit procedure is used to model the diffusion-only chronoamperometric responses of ...
A key concept underpinning electrochemical science is that of the diffusion layer - the zone of depl...
Understanding mass transport is prerequisite to all quantitative analysis of electrochemical experim...
© 2015 American Chemical Society. The diffusion of charge transfer between electroactive sites on a ...
Mass transport at cylindrical and spherical microelectrodes involving diffusion and migration is ana...
Recent progress in nanoparticle electrochemistry has enabled the detection of individual nanoparticl...