- If a coordination compound is ionic, name the cation first and the anion second, in accordance with the usual nomenclature.
- Name the ligands first, followed by the central metal. Name the ligands alphabetically. Negative ligands (anions) have names formed by adding -
o to the stem name of the group. For examples, see
[link] . For most neutral ligands, the name of the molecule is used. The four common exceptions are
aqua (H
2 O),
amine (NH
3 ),
carbonyl (CO), and
nitrosyl (NO). For example, name [Pt(NH
3 )
2 Cl
4 ] as diaminetetrachloroplatinum(IV).
Examples of Anionic Ligands |
Anionic Ligand |
Name |
F
− |
fluoro |
Cl
− |
chloro |
Br
− |
bromo |
I
− |
iodo |
CN
− |
cyano |
|
nitrato |
OH
− |
hydroxo |
O
2– |
oxo |
|
oxalato |
|
carbonato |
- If more than one ligand of a given type is present, the number is indicated by the prefixes
di - (for two),
tri - (for three),
tetra - (for four),
penta - (for five), and
hexa - (for six). Sometimes, the prefixes
bis - (for two),
tris - (for three), and
tetrakis - (for four) are used when the name of the ligand already includes
di -,
tri -, or
tetra -, or when the ligand name begins with a vowel. For example, the ion bis(bipyridyl)osmium(II) uses bis- to signify that there are two ligands attached to Os, and each bipyridyl ligand contains two pyridine groups (C
5 H
4 N).
When the complex is either a cation or a neutral molecule, the name of the central metal atom is spelled exactly like the name of the element and is followed by a Roman numeral in parentheses to indicate its oxidation state (
[link] and
[link] ). When the complex is an anion, the suffix -ate is added to the stem of the name of the metal, followed by the Roman numeral designation of its oxidation state (
[link] ). Sometimes, the Latin name of the metal is used when the English name is clumsy. For example,
ferrate is used instead of
ironate ,
plumbate instead
leadate , and
stannate instead of
tinate . The oxidation state of the metal is determined based on the charges of each ligand and the overall charge of the coordination compound. For example, in [Cr(H
2 O)
4 Cl
2 ]Br, the coordination sphere (in brackets) has a charge of 1+ to balance the bromide ion. The water ligands are neutral, and the chloride ligands are anionic with a charge of 1− each. To determine the oxidation state of the metal, we set the overall charge equal to the sum of the ligands and the metal: +1 = −2 +
x , so the oxidation state (
x ) is equal to 3+.
Examples in Which the Complex Is a Cation |
[Co(NH
3 )
6 ]Cl
3 |
hexaaminecobalt(III) chloride |
[Pt(NH
3 )
4 Cl
2 ]
2+ |
tetraaminedichloroplatinum(IV) ion |
[Ag(NH
3 )
2 ]
+ |
diaminesilver(I) ion |
[Cr(H
2 O)
4 Cl
2 ]Cl |
tetraaquadichlorochromium(III) chloride |
[Co(H
2 NCH
2 CH
2 NH
2 )
3 ]
2 (SO
4 )
3 |
tris(ethylenediamine)cobalt(III) sulfate |
Examples in Which the Complex Is Neutral |
[Pt(NH
3 )
2 Cl
4 ] |
diaminetetrachloroplatinum(IV) |
[Ni(H
2 NCH
2 CH
2 NH
2 )
2 Cl
2 ] |
dichlorobis(ethylenediamine)nickel(II) |
Examples in Which the Complex Is an Anion |
[PtCl
6 ]
2− |
hexachloroplatinate(IV) ion |
Na
2 [SnCl
6 ] |
sodium hexachlorostannate(IV) |
Do you think you understand naming coordination complexes? You can look over more examples and test yourself with
online quizzes at the University of Sydney’s site.