Add to ORKGA series solution to the transient convective diffusion equation for the rotating disc electrode system is presented and compared to previously reported solutions. The solution presented here is for the entire time domain and agrees well with both the short and long time solutions presented earlier in the literature
Rotating disc electrodes are preferred devices to analyze electrochemical reactions in electrochemic...
For purposes of convolutive modelling, a need exists for polynomial functions relating to inlaid dis...
io = 0.62048 n F Sc-2/~(v~) l/2Cb [1] relates the convective-diffusion l imiting current den-sity, i...
A series solution to the transient convective diffusion equation for the rotating disc electrode sys...
A series solution to the transient convective diffusion equation for the rotating disc electrode sys...
The radial variation of deposit thickness on a rotating disk electrode was measured for deposition o...
The Convection-Diffusion Equation is a partial differential equation that is used to study the effec...
In electrochemistry, the study of mass transport is often carried out by means of rotating electrode...
The current distribution a stationary disk electrode below a rotating disk at high Schrnidt numbers ...
A general mathematical model for studying the kinetics of electrochemical reactions at a rotating di...
A general mathematical model for studying the kinetics of electrochemical reactions at a rotating di...
A general mathematical model for studying the kinetics of electrochemical reactions at a rotating di...
In order to avoid the problem of gas bubbles blocking the surfaces of rotating disk electrodes, we p...
A solution of the convective-diffusion differential equation for the case of disk and conical electr...
This chapter demonstrates how to use Mathematica to simulate electrochemical systems in which rotati...
Rotating disc electrodes are preferred devices to analyze electrochemical reactions in electrochemic...
For purposes of convolutive modelling, a need exists for polynomial functions relating to inlaid dis...
io = 0.62048 n F Sc-2/~(v~) l/2Cb [1] relates the convective-diffusion l imiting current den-sity, i...
A series solution to the transient convective diffusion equation for the rotating disc electrode sys...
A series solution to the transient convective diffusion equation for the rotating disc electrode sys...
The radial variation of deposit thickness on a rotating disk electrode was measured for deposition o...
The Convection-Diffusion Equation is a partial differential equation that is used to study the effec...
In electrochemistry, the study of mass transport is often carried out by means of rotating electrode...
The current distribution a stationary disk electrode below a rotating disk at high Schrnidt numbers ...
A general mathematical model for studying the kinetics of electrochemical reactions at a rotating di...
A general mathematical model for studying the kinetics of electrochemical reactions at a rotating di...
A general mathematical model for studying the kinetics of electrochemical reactions at a rotating di...
In order to avoid the problem of gas bubbles blocking the surfaces of rotating disk electrodes, we p...
A solution of the convective-diffusion differential equation for the case of disk and conical electr...
This chapter demonstrates how to use Mathematica to simulate electrochemical systems in which rotati...
Rotating disc electrodes are preferred devices to analyze electrochemical reactions in electrochemic...
For purposes of convolutive modelling, a need exists for polynomial functions relating to inlaid dis...
io = 0.62048 n F Sc-2/~(v~) l/2Cb [1] relates the convective-diffusion l imiting current den-sity, i...