= + The structure has
full tetrahedral symmetry and is composed of one
heteroatom surrounded by four oxygen atoms to form a
tetrahedron. The heteroatom is located centrally and caged by 12
octahedral units linked to one another by the neighboring oxygen atoms. There are a total of 24 bridging oxygen atoms that link the 12 addenda atoms. The metal centres in the 12 octahedra are arranged on a sphere almost
equidistant from each other, in four units, giving the complete structure an overall tetrahedral symmetry. The
bond length between atoms varies depending on the heteroatom (X) and the addenda atoms (M). For the 12–phosphotungstic acid, Keggin determined the bond length between the heteroatom and each the four central oxygen atoms to be 1.5
Å. The bond length forms the central oxygen to the addenda atoms is 2.43 Å. The bond length between the addenda atoms and each of the bridging oxygen is 1.9 Å. The remaining 12 oxygen atoms that are each double bonded to an addenda atom have a bond length of 1.70 Å. The octahedra are therefore distorted. This structure allows the molecule to hydrate and dehydrate without significant structural changes and the molecule is thermally stable in the solid state for use in vapor phase reactions at high temperatures (400−500 °C).
Isomerism Including the original Keggin structure there are 5
isomers, designated by the prefixes α-, β-, γ-, δ- and ε-. The original Keggin structure is designated α. These isomers are sometimes termed Baker, Baker–Figgis or rotational isomers, These involve different rotational orientations of the units, which lowers the symmetry of the overall structure.
Lacunary Keggin structures The term
lacunary is applied to ions which have a fragment missing, sometimes called defect structures. Examples are the {{chem2|[XM11O39]^{
n}−}} and {{chem2|[XM9O34]^{
n}−}} formed by the removal from the Keggin structure of sufficient Mo and O atoms to eliminate 1 or 3 adjacent octahedra. The
Dawson structure is made up of two Keggin lacunary fragments with 3 missing octahedra.
Group 13 cations with the Keggin structure The cluster cation has the Keggin structure with a tetrahedral Al atom in the centre of the cluster coordinated to 4 oxygen atoms. The formula can be expressed as . This ion is generally called the ion. A analogue is known an unusual ionic compound with an cation and a Keggin polyoxoanion has been characterised.
The iron Keggin ion Due to the similar aqueous chemistries of aluminium and iron, it was earlier thought that an analogous iron polycation should be isolatable from water. Moreover, in 2007, the structure of ferrihydrite was determined and shown to be built of iron Keggin ions. This further captured scientists' imagination and drive to isolate the iron Keggin ion. In 2015, the iron Keggin ion was isolated from water, but as a polyanion with a −17 charge; and protecting chemistry was required. Iron-bound water is very acidic; so it is difficult to capture the intermediate Keggin ion form without bulky and nonprotic ligands instead of the water that is found in the aluminum Keggin ion. However, more important in this synthesis was the bismuth () counterions that provided high positive charge to stabilize the high negative charge of the heptadecavalent polyanion. == Chemical properties ==