User:Benjah-bmm27/degree/3/DJF

=Dynamic electrochemistry, DJF=
 * Dynamic electrochemistry
 * Electrochemistry
 * Quantum electrochemistry
 * Electrochemical reaction mechanisms
 * Electroanalytical methods
 * Potentiostat
 * Amperometric titration
 * Coulometry
 * Voltammetry
 * Linear sweep voltammetry, staircase voltammetry, squarewave voltammetry
 * Cyclic voltammetry
 * Anodic stripping voltammetry, cathodic stripping voltammetry, adsorptive stripping voltammetry
 * Rotated electrode voltammetry, rotating disk electrode, rotating ring-disk electrode
 * Differential pulse voltammetry
 * Polarography
 * Chronoamperometry

Butler-Volmer equation

 * Butler–Volmer equation
 * Tafel equation
 * Overpotential

Amperometry at constant potential

 * Amperometry - measuring current
 * Linear sweep voltammetry - measure current while increasing potential linearly with time
 * The diffusion limiting current depends on the concentration gradient, which is time dependent
 * To express current as a function of time, use Fick's Second Law of diffusion to derive the Cottrell equation via a Laplace transform

Cyclic voltammetry

 * Cyclic voltammetry
 * Linear Sweep & Cyclic Voltammetry: The Principles from the Cambridge Chemical Engineering electrochemistry group.
 * Randles-Sevcik equation
 * For a reversible reaction, the peak-to-peak separation is 59 mV / n, where n is the number of electrons transferred per molecule/species
 * Peak positions are independent of sweep rate, ν