Complex Ions
- Transition element ions can form complexes which consist of a central metal ion and ligands
- A ligand is a molecule or ion that forms a co-ordinate bond with a transition metal by donating a pair of electrons to the bond
- This is also the definition of a Lewis base
- This means ligands have a negative charge or a lone pair of electrons capable of being donated
- This definition may seem familiar: a ligand is the same as a nucleophile
- Different ligands can form different numbers of dative bonds to the central metal ion in a complex
- Some ligands can form one co-ordinate bond to the central metal ion
- Other ligands can form two co-ordinate bonds, and some can form multiple dative bonds
- Co-ordination number is number of co-ordinate bonds to the central metal atom or ion
Common Ligands
- Water molecules frequently act as ligands. Each water molecule makes a single bond with the metal ion using one of the lone pairs on the oxygen atom
- The lone pair is donated to the partially filled d-subshell of the transition metal ion
Table showing examples of common monodentate ligands
Representing complex ions
- Square brackets are used to group together the ligands and metal ion in a representation of the geometrical arrangement
- The overall charge on the complex ion is the sum of the oxidation states of all the species present
- If the ligands are neutral then the overall charge will be the same as the oxidation state of the metal ion
Examples of complexes with monodentate ligands
Co-ordination number
- The coordination number is the number of coordinate bonds to the metal ions
- This number can be the same as the number of ligands if they are monodentate, but it could be different if bi- or multidentate ligands are present
Naming complexes
- Complexes are named in the following way
- If the overall ion is a cation then the nomenclature is:
Prefix for number of ligands/ligand name/element/oxidation number
- The prefixes are the same ones used in organic chemistry: di, tetra, hexa for 2, 4 & 6 respectively (3 & 5 are rarely encountered except in mixed ligand complexes)
- If the overall ion is an anion, the name of element is modified to have the name ending 'ate' and sometimes Latin word stems are used
- Using the examples in the illustration above, the names are:
- tetrachlorcuprate(II)
- hexaaquairon(II)
- hexaamminecobalt(II)
- tetracyanonickelate(II)
- Notice in these examples that
- cuprate( Latin - cuprum) and nickelate are used in place of copper and nickel as they are anions
- Ammonia takes the prefix ammine as a ligand, which is spelt with a double 'm' unlike the functional group amine
Bidentate Ligands
- Bidentate ligands can each form two co-ordinate bonds to the central metal ion
- This is because each ligand contains two atoms with lone pairs of electrons
- Examples of bidentate ligands are:
- 1,2-diaminoethane (H2NCH2CH2NH2) which is also written as ‘en’
- Ethanedioate ion (C2O42- ) which is sometimes written as ‘ox’ (coming from the common name of oxalate)
Examples of complexes with bidentate ligands
Multidentate Ligands
- Some ligands contain more than two atoms with lone pairs of electrons
- These ligands can form more than two dative bonds and are said to be multidentate or polydentate ligands
- An example of a multidentate ligand is EDTA4-, which is a hexadentate ligand as it forms 6 dative covalent bonds to the central metal ion
- EDTA comes from ethylenediaminetetraacetic acid, which is rather a mouthful so EDTA is easier!
Example of a polydentate ligand complex
