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Exothermic reactions transfer energy to their surroundings. This is usually transferred by heating, but the energy can be transferred in other ways. Chemical cells use chemical reactions to transfer energy by electricity.

Chemical cells

Chemical cells include the familiar batteries used in torches and mobile phones. There are different designs of chemical cells, with different reactions depending on the type of cell.

Chemical cells produce a voltage until one of the reactants is used up. When this happens, we say the battery ‘has gone flat’.

Fuel cells

Fuel cells work in a different way than chemical cells. Fuel cells produce a voltage continuously, as long as they are supplied with:

• a fuel
• oxygen (from the air)

Hydrogen-oxygen fuel cells

In a hydrogen-oxygen fuel cell, hydrogen and oxygen are used to produce a voltage. Water is the only product.

Two separate reactions happen, one on each side of the fuel cell.

1. On one side, hydrogen molecules lose electrons and form hydrogen ions:

2H₂ → 4H⁺ + 4e^-

The two products reach the other side of the cell, hydrogen ions through a membrane and electrons through the electrical circuit.

2. On the other side, hydrogen ions react with oxygen molecules and electrons to form water:

4H⁺ + O₂ + 4e^- → 2H₂O

The overall reaction in a hydrogen-oxygen fuel cell is:

hydrogen + oxygen → water

2H₂(g) + O₂(g) → 2H₂O(l)