Add to ORKGWe introduce a sensitive, novel way to determine the standard electrochemical rate constant, k0, through the application of a semi-circular potential wave at a microdisc electrode. A one-electron reduction reaction is investigated and simulated for varying rate constants. It is shown that the voltammograms of a semi-circular potential wave exhibit significantly greater sensitivity to the changes in electrode kinetics compared to the conventional linear potential wave. A reprogramming of a commercial potentiostat can yield a one order magnitude greater sensitivity and can be used to determine the rate constant of a system under investigation
Due to the need for a rigorous mathematical model that can help to estimate kinetic properties for s...
International audienceRelevant electrochemical processes present rate equations with non-unity react...
Reverse Pulse Voltammetry (RPV) is a powerful double pulse technique for kinetic studies. The theory...
We introduce a sensitive, novel way to determine the standard electrochemical rate constant, k0, thr...
Semi-circular potential sweep voltammetry has recently been proposed as a sensitive method to estima...
This thesis is concerned with the simulation of electrochemical systems in general and of voltammetr...
We investigate stripping voltammetry using a semi-circular potential wave. Our results show that the...
The voltammetry of two simultaneous electrochemically reversible reactions with different formal pot...
Theory is presented describing the shape of voltammograms obtained from reversible electrode reactio...
Semi-analytical approach was used for modeling and establishing Linear Sweep Voltammetry (LSV) profi...
An explicit analytical easily programmable expression for the current-potential curves of electrode ...
An explicit analytical easily programmable expression for the current-potential curves of electrode ...
The influence of the potential pulse height of square-wave voltammetry (SWV) (i.e., the SW amplitude...
Theory is presented for the shape of current-voltage curves measured at a rotating-disc electrode fo...
Theory is presented for the shape of current-voltage curves measured at a rotating-disc electrode fo...
Due to the need for a rigorous mathematical model that can help to estimate kinetic properties for s...
International audienceRelevant electrochemical processes present rate equations with non-unity react...
Reverse Pulse Voltammetry (RPV) is a powerful double pulse technique for kinetic studies. The theory...
We introduce a sensitive, novel way to determine the standard electrochemical rate constant, k0, thr...
Semi-circular potential sweep voltammetry has recently been proposed as a sensitive method to estima...
This thesis is concerned with the simulation of electrochemical systems in general and of voltammetr...
We investigate stripping voltammetry using a semi-circular potential wave. Our results show that the...
The voltammetry of two simultaneous electrochemically reversible reactions with different formal pot...
Theory is presented describing the shape of voltammograms obtained from reversible electrode reactio...
Semi-analytical approach was used for modeling and establishing Linear Sweep Voltammetry (LSV) profi...
An explicit analytical easily programmable expression for the current-potential curves of electrode ...
An explicit analytical easily programmable expression for the current-potential curves of electrode ...
The influence of the potential pulse height of square-wave voltammetry (SWV) (i.e., the SW amplitude...
Theory is presented for the shape of current-voltage curves measured at a rotating-disc electrode fo...
Theory is presented for the shape of current-voltage curves measured at a rotating-disc electrode fo...
Due to the need for a rigorous mathematical model that can help to estimate kinetic properties for s...
International audienceRelevant electrochemical processes present rate equations with non-unity react...
Reverse Pulse Voltammetry (RPV) is a powerful double pulse technique for kinetic studies. The theory...