Electrochemical systems consist of electrically conducting media. These may be classified as electrodes or electrolyte. An electrode carries current by transport of electrons; normally the electrode is a conventional electrical conductor such as a metal. The
electrolyte carries current by transport of charged chemical species (ions). Electrolytes are often salt solutions in water but may include salt solutions in other liquid solvents, as well as solids, such as concrete, which can conduct by transport of oxide ions. The electrical conductivity of an electrode is normally several orders of magnitude larger than the electrical conductivity of an electrolyte.
At the electrode-electrolyte interface, conventional electrical current in the electrode is converted into ionic current in the electrolyte. According to the overall conservation of charge, these currents must balance here. The conversion between the two types of current may arise due to electrochemical reaction (electrolysis) or capacitive charging.
In an electrochemical cell with two electrodes, these electrodes are identified as an anode, at which the electrochemical reaction transfers electrons from electrolyte to electrode, and a
cathode, at which electrons are transfered from the electrode to the electrolyte. Note that it is the direction of the current that will determine if an electrode reaction is anodic or cathodic. For a battery, for instance, the location of the anode and cathode will change depending on whether the battery is charged or discharged. (The general habit in the battery community to always denounce the positive electrode as the “cathode” is hence strictly only correct during battery discharge.)
The overall current-voltage curve of an electrochemical cell is also known as a polarization curve or, in an analytical context, a
voltammogram. These curves are not unique but rather depend on the means by which the current or voltage is altered, since these lumped parameters are related to multiple physical effects with different length and time scales. Hysteresis in practical polarization curves is not uncommon.