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Electrolysis - OCR GatewayElectrolysis - solutions

Electrolysis involves using electricity to break down electrolytes to form elements. The products of electrolysis can be predicted for a given electrolyte. Copper can be purified using electrolysis.

Part of Chemistry (Single Science)Chemical reactions

Electrolysis - solutions

Electrolysis of acidified water

Water is a poor conductor of electricity, but it does contain some hydrogen , H+, and hydroxide ions, OH-. These ions are formed when a small proportion of water molecules naturally . If water is acidified with a little dilute sulfuric acid:

  • H+ ions are attracted to the , gain and form hydrogen gas
  • OH- ions are attracted to the , lose electrons and form oxygen gas

The overall balanced equation for the process is: 2H2O(l) 鈫 2H2(g) + O2(g)

The volume of hydrogen given off is twice the volume of oxygen given off.

Learn more on electrolysis of aqueous solutions in this podcast.

Electrolysis of dissolved ionic compounds

An formed by dissolving an contains:

  • hydrogen ions from the water and positive ions from the compound
  • hydroxide ions from the water and negative ions from the compound

The ions compete at each to gain or lose electrons.

At the cathode

Whether hydrogen or a metal is produced at the cathode depends on the position of the metal in the metal :

  • the metal will be produced if the metal is less than hydrogen
  • hydrogen will be produced if the metal is more reactive than hydrogen
The relative reactivity of selected elements from most to least: potassium, sodium, calcium, magnesium, aluminium, carbon, zinc, iron, tin, lead, hydrogen, copper, silver, gold, platinum.
Figure caption,
The reactivity series of metals - carbon and hydrogen are non-metals, shown for comparison

Example

Predict the formed at the negative electrode during the electrolysis of sodium chloride solution.

Hydrogen will be produced because sodium is more reactive than hydrogen.

Question

Predict the product formed at the negative electrode during the electrolysis of copper chloride solution.

At the anode

Oxygen is produced (from hydroxide ions), unless ions (chloride, bromide or iodide ions) are present. In that case, the negatively charged halide ions lose electrons and form the corresponding (chlorine, bromine or iodine).

The table summarises the product formed at the anode during the electrolysis of different electrolytes in solution.

Negative ion from electrolyteElement given off at anode
chloride, Cl-chlorine, Cl2
bromide, Br-bromine, Br2
iodide, I-iodine, I2
sulfate, SO42-oxygen, O2
nitrate, NO3-oxygen, O2
Negative ion from electrolytechloride, Cl-
Element given off at anodechlorine, Cl2
Negative ion from electrolytebromide, Br-
Element given off at anodebromine, Br2
Negative ion from electrolyteiodide, I-
Element given off at anodeiodine, I2
Negative ion from electrolytesulfate, SO42-
Element given off at anodeoxygen, O2
Negative ion from electrolytenitrate, NO3-
Element given off at anodeoxygen, O2

Example

Predict the product formed at the positive electrode during the electrolysis of concentrated sodium chloride solution.

Chlorine will be produced.

Question

Predict the product formed at the positive electrode during the electrolysis of concentrated sodium sulfate solution.

Very dilute solutions of halide compounds

If a halide solution is very dilute, oxygen is given off instead of the halogen. This is because its halide ions are outnumbered by hydroxide ions from the water.