Why is ionic bonding exothermic?

1 Answer
Ernest Z.
Apr 23, 2014

Ionic bonding is exothermic because the packing of oppositely charged ions into a crystal structure makes it extremely stable.

We can consider the formation of NaCl as occurring in steps.

  1. Na(s) → Na(g); ΔH = 107.3 kJ/mol
  2. Na(g) → Na⁺(g) + e⁻; ΔH = 495.8 kJ/mol
  3. ½Cl₂(g) → Cl(g); ΔH = 121.7 kJ/mol
  4. Cl(g)+ e⁻ → Cl⁻(g); ΔH = -348.8 kJ/mol

So it requires 376.0 kJ to convert 1 mol of Na and ½ mol of Cl₂ into 1 mol each of gaseous Na⁺ and Cl⁻ ions.

The lattice energy #ΔH_"latt"# is the energy required to separate completely 1 mol of a solid ionic compound into its gaseous ions.

For NaCl,
NaCl(s) → Na⁺(g) + Cl⁻(g); #ΔH_"latt"# = 787.3 kJ/mol

For the reverse reaction,
Na⁺(g) + Cl⁻(g) → NaCl(s); ΔH = -787.3 kJ/mol

So, forming the ions from Na(s) and ½Cl₂(g) requires the input of +376.0 kJ/mol.

When these ions incorporate into the salt lattice, they liberate -787.3 kJ/mol, for an overall exothermic release of -411.3 kJ/mol.

You can see that the energy released when the ions combine in the crystal makes ionic bonding exothermic.

Related questions
See all questions in Ionic Bonding
Impact of this question
8101 views around the world
You can reuse this answer
Creative Commons License