Ligand Exchange (CIE A Level Chemistry)

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Ligand Exchange

  • Ligand exchange (or ligand substitution) is when one ligand in a complex is replaced by another
  • Ligand exchange forms a new complex that is more stable than the original one
  • The ligands in the original complex can be partially or entirely substituted by others
  • There are no changes in coordination number, or the geometry of the complex, if the ligands are of a similar size
  • But, if the ligands are of a different size, for example water ligands and chloride ligands, then a change in coordination number and the geometry of the complex will occur

Substitution in copper(II) complexes

  • When a transition element ion is in solution, it can be assumed that it exists as a hexaaqua complex ion (i.e. it has six water ligands attached to it)
    • For example, Cu2+(aq) is [Cu(H2O)6]2+(aq)

  • The [Cu(H2O)6]2+ (aq) complex ion is blue in colour
  • Upon dropwise addition of sodium hydroxide (NaOH) solution, a light blue precipitate is formed
  • Partial ligand substitution of two water ligands by two hydroxide ligands has occurred

Ligand Exchange equation 1

  • Upon addition of excess concentrated ammonia (NH3) solution, the pale blue precipitate dissolves to form a deep blue solution
  • Again, partial ligand substitution has occurred

Ligand Exchange equation 2

  • If you were to add concentrated ammonia (NH3) solution dropwise to the [Cu(H2O)6]2+ (aq), rather than sodium hydroxide (NaOH) solution, the same light blue precipitate would form
  • Again, the pale blue precipitate will dissolve to form a deep blue solution, if excess ammonia solution is then added

Chemistry of Transition Elements - Ligand Exchange in Copper, downloadable AS & A Level Chemistry revision notes

Water ligands are exchanged by hydroxide and ammonia ligands in the copper(II)  complex

  • The water ligands in [Cu(H2O)6]2+ can also be substituted by chloride ligands, upon addition of concentrated hydrochloric acid (HCl)
  • The complete substitution of the water ligands causes the blue solution to turn yellow

Ligand Exchange equation 3

  • The coordination number has changed from 6 to 4, because the chloride ligands are larger than the water ligands, so only 4 will fit around the central metal ion
  • The geometry of the complex has also changed from octahedral to tetrahedral
  • This is a reversible reaction, and some of the [Cu(H2O)6]2+ complex ion will still be present in the solution
    • The mixture of blue and yellow solutions in the reaction mixture will give it a green colour

  • Adding water to the solution will cause the chloride ligands to be displaced by the water molecules, and the [Cu(H2O)6]2+ (aq) ion and blue solution will return

Water ligands are exchanged by chloride ligands in the copper(II) complex

Substitution in cobalt(II) complexes

  • The [Co(H2O)6]2+(aq) complex ion is pink in colour
  • Upon dropwise addition of sodium hydroxide (NaOH) solution, a blue precipitate is formed
  • Partial ligand substitution of two water ligands by two hydroxide (OH-) ligands has occurred
    • If the alkali is added in excess, the blue precipitate will turn red when warmed

Ligand Exchange equation 4

  • If excess concentrated ammonia solution is added to [Co(H2O)6]2+, a brown solution will also be formed
    • There will be no precipitate formed in this instance, as the ammonia has been added in excess and not dropwise

  • Complete ligand substitution of the water ligands by ammonia ligands has occurred

Ligand Exchange equation 5

  • The ammonia ligands make the cobalt(II) ion so unstable that it readily gets oxidised in air to cobalt(III), [Co(NH3)6]3+

Ligand Exchange in Cobalt, downloadable AS & A Level Chemistry revision notes

Water ligands are exchanged by hydroxide and ammonia ligands in the cobalt(II) complex

  • The water ligands in [Co[H2O)6]2+ can also be substituted by chloride ligands, upon addition of concentrated hydrochloric acid
  • The complete substitution of the water ligands causes the pink solution to turn blue

Ligand Exchange equation 2

  • Like with [Cu(H2O)6]2+ above, the coordination number has changed from 6 to 4, because the chloride ligands are larger than the water ligands, so only 4 will fit around the central metal ion
  • The geometry of the complex has also changed from octahedral to tetrahedral
  • Adding water to the solution will cause the chloride ligands to be displaced by the water molecules, and the [Co(H2O)6]2+ (aq) ion and pink solution will return

Chemistry of Transition Elements - Ligand Exchange in Cobalt 2_1, downloadable AS & A Level Chemistry revision notes

Water ligands are exchanged by chloride ligands in the cobalt(II) complex

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Francesca

Author: Francesca

Expertise: Head of Science

Fran studied for a BSc in Chemistry with Forensic Science, and since graduating taught A level Chemistry in the UK for over 11 years. She studied for an MBA in Senior Leadership, and has held a number of roles during her time in Education, including Head of Chemistry, Head of Science and most recently as an Assistant Headteacher. In this role, she used her passion for education to drive improvement and success for staff and students across a number of subjects in addition to Science, supporting them to achieve their full potential. Fran has co-written Science textbooks, delivered CPD for teachers, and worked as an examiner for a number of UK exam boards.