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Electrolytes and electrolysisElectrolysis of ionic compounds

Reactive metals are extracted from their ores using electrolysis. Ionic compounds conduct electricity when molten or in solution. Metal ions and non-metal ions are attracted to opposite electrodes.

Part of Chemistry (Single Science)Chemicals of the natural environment

Electrolysis of ionic compounds

do not react with the or the products formed during . They just provide a surface for ions to gain or lose electrons so they form products. Graphite (a form of carbon) and platinum are commonly used to make inert electrodes.

During of a ionic compound:

  • positive metal are attracted to the negative electrode, where they gain and form metal
  • negative ions are attracted to the positive electrode, where they lose electrons and form non-metal atoms

Non-metal atoms formed at the positive electrode, the , usually join together by bonding to form simple .

Example

During electrolysis of molten lead(II) bromide, PbBr2(l):

  • Pb2+ ions gain electrons at the and become Pb atoms
  • Br- ions lose electrons at the anode and become Br atoms, which pair up to form Br2 molecules

Overall, lead forms at the negative electrode and bromine forms at the positive electrode.

Molten lead(II) bromide heated in beaker while electrodes inserted. Positive lead ions are attracted to the negative electrode, while negative bromide ions are attracted to the positive electrode.
Figure caption,
Lead and bromine form during the electrolysis of molten lead(II) bromide

Example

Predict which form at the anode and the cathode during the electrolysis of molten calcium chloride. Explain your answer.

Calcium will form at the cathode and chlorine will form at the anode.

This is because positive calcium ions are attracted to the negative electrode (cathode), where they gain electrons to form calcium atoms. At the same time, negative chloride ions are attracted to the positive electrode (anode). They lose electrons to form chlorine atoms, which join by covalent bonds to form chlorine molecules.

Question

Predict which products form at each electrode during the electrolysis of molten aluminium oxide.