Tin(II) bromide

Tin(II) bromide

Names
Other names tin dibromide, stannous bromide
Identifiers
CAS Number	10031-24-0 Y
3D model (JSmol)	Interactive image
ChemSpider	59609 N
ECHA InfoCard	100.030.067
EC Number	233-087-0
PubChem CID	66224
UNII	55F23H2K96 N
InChI InChI=1S/2BrH.Sn/h2*1H;/q;;+2/p-2 N Key: ZSUXOVNWDZTCFN-UHFFFAOYSA-L N InChI=1/2BrH.Sn/h2*1H;/q;;+2/p-2 Key: ZSUXOVNWDZTCFN-NUQVWONBAM
SMILES Br[Sn]Br
Properties
Chemical formula	SnBr2
Molar mass	278.518 g/mol
Appearance	yellow powder
Density	5.12 g/cm3, solid
Melting point	215 °C (419 °F; 488 K)
Boiling point	639 °C (1,182 °F; 912 K)
Structure
Crystal structure	related to PbCl2
Hazards
EU classification (DSD) (outdated)	not listed
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
N  (what is YN ?)
Infobox references

Tin(II) bromide is a chemical compound of tin and bromine with a chemical formula of SnBr₂. Tin is in the +2 oxidation state. The stability of tin compounds in this oxidation state is attributed to the inert pair effect.

In the gas phase SnBr₂ is non-linear with a bent configuration similar to SnCl₂ in the gas phase. The Br-Sn-Br angle is 95° and the Sn-Br bond length is 255pm. There is evidence of dimerisation in the gaseous phase. The solid state structure is related to that of SnCl₂ and PbCl₂ and the tin atoms have five near bromine atom neighbours in an approximately trigonal bipyramidal configuration.

Tin(II) bromide can be prepared by the reaction of metallic tin and HBr distilling off the H₂O/HBr and cooling:

SnBr₂ is soluble in donor solvents such as acetone, pyridine and dimethylsulfoxide to give pyramidal adducts.
A number of hydrates are known, 2SnBr₂·H₂O, 3SnBr₂·H₂O & 6SnBr₂·5H₂O which in the solid phase have tin coordinated by a distorted trigonal prism of 6 bromine atoms with Br or H₂O capping 1 or 2 faces. When dissolved in HBr the pyramidal SnBr₃⁻ ion is formed. Like SnCl₂ it is a reducing agent. With a variety of alkyl bromides oxidative addition can occur to yield the alkyltin tribromide e.g.

Tin(II) bromide can act as a Lewis acid forming adducts with donor molecules e.g. trimethylamine where it forms NMe₃.SnBr₂ and 2NMe₃.SnBr₂ It can also act as both donor and acceptor in, for example, the complex F₃B.SnBr₂.NMe₃ where it is a donor to boron trifluoride and an acceptor to trimethylamine.