Electrochemistry is the subdiscipline of Chemistry that deals with the study of the relationship between electrical energy and chemical changes. Chemical reactions that involve the input or generation of electric currents are called electrochemical reactions. Such reactions are broadly classified into two categories:
Download Complete Chapter Notes of Electrochemistry
- Production of chemical change by electrical
energy, i.e., the phenomenon of electrolysis
- Conversion of chemical energy into
electrical energy, i.e., the generation of electricity by spontaneous
redox reactions.
Electricity can be produced when electrons move from
one element to another in certain types of reactions (such as redox reactions).
Typically, electrochemistry deals with the overall reactions when multiple
redox reactions occur simultaneously, connected via some external electric
current and a suitable electrolyte. In other words, electrochemistry is also
concerned with chemical phenomena that involve charge separation (as seen
commonly in liquids such as solutions). The dissociation of charge often involves
charge transfer that occurs homogeneously or heterogeneously between
different chemical species.
Electrochemical Cell
A spontaneous chemical process is one which can take
place on its own, and in such a process, the Gibbs free energy of a system decreases. In electrochemistry, spontaneous reaction
(redox reaction) results in the conversion of chemical energy into electrical
energy. The reverse process is also possible where a non-spontaneous chemical
reaction occurs by supplying electricity. These interconversions are carried
out in equipment called an electrochemical cell.
Types of Electrochemical Cell
Electrochemical cells are of two types: galvanic cells
and electrolytic cells
Galvanic Cell
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