Electrochemical potential: Difference between revisions

Electrochemical potential is a measure of the potential energy of a system of electrons, ions, or molecules in an electrochemical process. It is a fundamental concept in electrochemistry and is used to understand and predict the behavior of electrochemical systems.

Definition[edit]

The electrochemical potential, denoted by μ, is defined as the partial molar Gibbs free energy of a species in a mixture. It is given by the equation:

μ = μ° + RT ln a

where μ° is the standard chemical potential, R is the gas constant, T is the temperature, and a is the activity of the species.

Factors affecting electrochemical potential[edit]

The electrochemical potential of a species is affected by several factors, including its concentration, temperature, pressure, and the presence of other species in the mixture. Changes in these factors can cause changes in the electrochemical potential, which can in turn affect the behavior of the electrochemical system.

Role in electrochemical reactions[edit]

In an electrochemical reaction, the difference in electrochemical potential between the reactants and products determines the direction and extent of the reaction. If the electrochemical potential of the products is lower than that of the reactants, the reaction will proceed spontaneously in the forward direction. Conversely, if the electrochemical potential of the products is higher than that of the reactants, the reaction will not proceed spontaneously and external energy will be required to drive it.

See also[edit]

• Electrochemistry
• Gibbs free energy
• Chemical potential
• Electrochemical cell
• Electrochemical gradient

References[edit]

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