Stannide

A stannide can refer to an intermetallic compound containing tin combined with one or more other metals; an anion consisting solely of tin atoms or a compound containing such an anion, or, in the field of organometallic chemistry an ionic compound containing an organotin anion (e.g.see an alternative name for such  a compound is stannanide.)

Binary alkali and alkaline earth stannides
When tin is combined with an alkali or alkaline earth metal some of the compounds formed have ionic structures containing monatomic or polyatomic tin anions (Zintl ions), such as Sn4− in Mg2Sn or in K4Sn9. Even with these metals not all of the compounds formed can be considered to be ionic with localised bonding, for example Sr3Sn5, a metallic compound, contains {Sn5} square pyramidal units.

Ternary alkali and alkaline earth stannides
Ternary (where there is an alkali or alkaline earth metal, a transition metal as well as tin e.g. LiRh3Sn5 and MgRuSn4 ) have been investigated.

Other metal stannides
Binary (involving one other metal) and ternary (involving two other metals) intermetallic stannides have been investigated. Niobium stannide, Nb3Sn is perhaps the best known superconducting tin intermetallics. This is more commonly called "niobium-tin".

There are multiple rare earth stannides, including with dysprosium and yttrium.

Stannide ions,
Some examples of stannide Zintl ions are listed below. Some of them contain 2-centre 2-electron bonds (2c-2e), others are "electron deficient" and bonding sometimes can be described using polyhedral skeletal electron pair theory (Wade's rules) where the number of valence electrons contributed by each tin atom is considered to be 2 (the s electrons do not contribute). There are some examples of silicide and plumbide ions with similar structures, for example tetrahedral, the chain anion (Si2−)n, and.
 * Sn4− found for example in Mg2Sn.
 * , tetrahedral with 2c-2e bonds e.g. in CsSn.
 * , tetrahedral closo-cluster with 10 electrons (2n + 2).
 * (Sn2−)n zig-zag chain polymeric anion with 2c-2e bonds found for example in BaSn.
 * closo-cluster, 12 electrons (2n + 2), (i.e. trigonal bipyramidal) in (2,2,2-crypt-Na)2Sn5.
 * polymeric two-dimensional anion in NaSn2.
 * nido-cluster 22 electrons (2n + 4), capped square antiprismatic with as per polyhedral skeletal electron pair theory, in the intermetallic K4Sn9, and a distorted ion in the salt Na4Sn9·7 en.
 * a paramagnetic, 21 electrons, closo- cluster anion (D3h symmetry), 1 more electron than the 20 (2n + 2) predicted by polyhedral skeletal electron pair theory.
 * polymeric two-dimensional anion in Na7Sn12