Electrolysis of Aqueous Solutions

What is formed at the anode and cathode

Aqueous solutions will always have water present
Some water molecules split up into hydrogen and hydroxide ions, H⁺ and OH^–, which participate in the electrolysis reactions

H₂O (l) $⇌$ H⁺ (aq) + OH^– (aq)

Products at the anode

Negatively charged ions are attracted to the positive electrode, the anode
When the aqueous electrolyte undergoes electrolysis the OH^– and any other negative ions (e.g. Cl^–, Br^–) in solution are attracted to the anode and they will lose electrons (be oxidised)
- E.g. 2Cl^–→ Cl₂+ 2e^–

Products at the cathode

Positively charged ions are attracted to the negative electrode, the cathode
When the aqueous electrolyte undergoes electrolysis the H⁺ and any other negative ions (e.g. Cu²⁺, Ag⁺) in solution are attracted to the anode and they will gain electrons (be reduced)
Only metals that are below hydrogen in the reactivity series will form at the cathode
- Cu²⁺ + 2e^–→ Cu

Table of products when solutions undergo electrolysis

Solution	Product at anode	Product at cathode
copper(II) chloride	copper	chlorine gas
sodium bromide	hydrogen	bromine gas

Gases formed at the anode and cathode are collected using inverted test tubes

Collecting gases formed in electrolysis

Electrolysis - Apparatus Inverted Test Tubes

The gases that are collected using the inverted test tubes are filled with water. The gases will displace the water

Competing Ions

Higher Tier

Rules for identifying products formed at electrodes

Positive Electrode - Anode

Negatively charged OH^– ions and non-metal ions are attracted to the positive electrode
If halide ions (Cl^-, Br^-, I^-) and OH^- are present then the halide ion is discharged at the anode, loses electrons and forms a halogen (chlorine, bromine or iodine)
If no halide ions are present, then OH^- is discharged at the anode, loses electrons and forms oxygen gas
In both cases, the other negative ion remains in solution

Negative Electrode - Cathode

H⁺ions and metal ions are attracted to the negative electrode but only one will gain electrons
Either hydrogen or a metal will be produced
If the metal is above hydrogen in reactivity series, hydrogen will be produced – bubbling will be seen at the cathode

The reactivity series

The reactivity series of metals

The reactivity series of metals enables chemists to predict the products at the cathode in the electrolysis of aqueous solutions

Using Named Electrolytes

The products at the electrodes from solutions of copper chloride and sodium chloride

The Products of Electrolysing Aqueous Solutions

Aqueous solution	Ions present	Equation at anode	Equation at cathode
Sodium chloride, NaCl	H⁺, OH^– , Na⁺, Cl^–	2Cl^–(aq) → Cl₂(g) + 2e^–	2H⁺+ 2e^–→ H₂ (g)
Copper(II) chloride, CuCl₂	H⁺, OH^– , Cu²⁺, Cl^–	2Cl^–(aq) → Cl₂(g) + 2e^–	Cu²⁺(aq) + 2e^–→ Cu (s)

Explaining the products:

Copper chloride:
- Copper is below hydrogen so copper(II) ions are preferentially discharged at the cathode; chlorine is a halogen, so is preferentially discharged at the anode

Sodium chloride:
- Sodium is above hydrogen so hydrogen ions are preferentially discharged at the cathode; chlorine is a halogen, so is preferentially discharged at the anode

Exam Tip

You are not expected to know the products at the anode if nitrate or sulfate solutions are used as the electrolyte.

Electrolysis of Aqueous Solutions (WJEC GCSE Chemistry)

Revision Note