Overview
ABSTRACT
The domain of electrochemistry can be defined as comprising all physical and chemical processes involved in the passage of an electric current through an ionic conductor. These phenomena require the use of electrodes characterized by at least one common interface with two wires of a different nature. They occur in various ways in electrochemical reactors composed of two electronic conductors or electrodes separated by a conductive ionic medium. After having defined the main phenomena involved in the passing of current, this article presents the thermodynamic, kinetic and energetic aspects of electrochemistry. The main industrial applications of electrochemistry are succinctly presented; they also include electrochemical situations without any apparent current.
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André DARCHEN: Doctor of Physical Sciences - Professor at the École nationale supérieure de chimie de Rennes
INTRODUCTION
Electricity was already known when Volta invented the electric battery. Indeed, electricity was already being used and studied as a laboratory curiosity: rubbing insulating materials created a few electric charges and stored them in capacitors. In 1800, when Volta stacked metal disks separated by non-metallic materials made conductive by impregnation with salt water, he created the first electric battery and, with this first application, also opened the door to electrochemistry.
Electrochemistry can be characterized as the set of phenomena involved in the passage of an electric current through an ionic conductor, irrespective of its direction. The passage of this current requires the use of an electrochemical system consisting of two electrodes in electrical contact with the ionic conductor. The material involved therefore comprises electronically conductive materials and a liquid medium made electrically conductive by the presence of ions. The physical characterization of electrochemical systems mainly involves measuring current or potential.
The passage of current is generally accompanied by chemical changes to the electrodes or the material on their surface. This coupling of chemical transformations with electricity is involved in two major electrochemical applications: batteries and electrolysis. The passage of current always involves a conversion of energy. In a battery, current and electrical energy are produced by the consumption of an oxidant and a reductant, respectively on a cathode and an anode. In electrolysis, electrical energy is consumed and transformed into products and heat.
Since Volta, electrochemistry has developed enormously, both fundamentally and in terms of applications in various sectors: energy, materials synthesis and processing, analysis and the living world. Depending on the nature and size of the electrodes, and the intensity of the current, electrochemistry has given rise to a wide variety of industrial applications, which are described in this article. These applications are still the subject of active research, particularly when they are in line with the objectives of sustainable development and better management of materials and energy. Indeed, the coupling of electricity with changes in matter is currently at the heart of the most credible processes for storing intermittent renewable energies.
Capacitive current: electrical current associated with charging or discharging the electrochemical double layer. Capacitive current arises as soon as the electrode potential is changed. The same applies to changes in the surface of an electrode held at constant potential. Capacitive current does not lead to a change in chemical composition, but only in the...
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Bibliography
Websites
Zoltan NAGY manages three electrochemical information sites:
ESTIR (Electrochemical Science and Technology Information Resource) https://knowledge.electrochem.org/estir/
Events
Journées d'Électrochimie. This French-speaking congress is held every two years, usually in France (odd-numbered years). In 2009, the congress was held in Sinaia (Romania). http://www.je09.org
Eurocorr. European Congress of the European Federation of Corrosion (every year). In 2009, the congress was held in Nice (France).
Patents
DEMIRYONT (H.). – Transparent electrode. US patent 7 531 239 B2 (2009).
DANEL (V.), FLIPO (J.-P.), ANDRIEU (X.), PICHON (B.) and BARUSSEAU (S.). – Supercapacitor with non-aqueous electrolyte and activated carbon electrode. Patent EP 0 930 627 A1, July 21, 1999.
VANVOREN (C.) and JONVILLE (C.). – Process for individually marking prebaked anodes for the electrolytic production...
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