Aluminium bromide

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Aluminium bromide
Ball and stick model of dimeric aluminium bromide
Names
Preferred IUPAC name
Aluminium bromide
Other names
Aluminic bromide

Aluminium(III) bromide

Aluminium tribromide
Identifiers
7727-15-3 YesY
7784-11-4 hexahydrate YesY
ChemSpider 22818 YesY
9040513 hemi(acetyl bromide) YesY
9499890 ethanethiol YesY
EC Number 231-779-7
Jmol 3D model Interactive image
PubChem 24409
11062022 tertikis(tetrachloromethane)
10865226 hemi(acetyl bromide)
11324936 ethanethiol
6093832 tris(pyridine)
RTECS number BD0350000
UN number 1725
  • InChI=1S/Al.3BrH/h;3*1H/q+3;;;/p-3 YesY
    Key: PQLAYKMGZDUDLQ-UHFFFAOYSA-K YesY
  • InChI=1/Al.3BrH/h;3*1H/q+3;;;/p-3
    Key: PQLAYKMGZDUDLQ-DFZHHIFOAT
  • Br[Al](Br)Br
Properties
AlBr3
Al2Br6
Molar mass 266.69 g/mol
Appearance white to pale yellow
crystalline solid
Odor pungent
Density 3.205 g/cm3
Melting point 97.8 °C (208.0 °F; 370.9 K)
Boiling point 265 °C (509 °F; 538 K)
reacts
Solubility slightly soluble in methanol, diethyl ether, acetone
Structure
monoclinic
Vapor pressure {{{value}}}
Related compounds
Other anions
aluminium trichloride
aluminium triiodide
Other cations
boron tribromide
Related compounds
iron(III) bromide
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
YesY verify (what is YesYN ?)
Infobox references

Aluminium bromide is any chemical compound with the empirical formula AlBrx. The species called "aluminium tribromide," is the most common aluminium bromide. The species aluminium monobromide forms from the reaction of HBr with Al metal at high temperature. It disproportionates near room temperature:

6/n "[AlBr]n" → Al2Br6 + 4 Al

This reaction is reversed at temperatures higher than 1000 °C.

Structure

"Aluminium tribromide" is really dialuminium hexabromide with the molecular formula of Al2Br6 in the solid state, solutions in noncoordinating solvents (e.g. CS2), and in the melt. Even upon evaporation, Al2Br6 exists in the gas phase. At high temperatures, the gaseous molecules break up into monomers:

Al2Br6 → 2 AlBr3 ΔH°diss = 59 kJ/mol

Aluminium monobromide has been crystallographically characterized in the form the tetrameric adduct Al4Br4(NEt3)4 (Et = C2H5). This species is electronically related to cyclobutane. Theory suggest that the diatomic aluminium monobromide condenses to a dimer and then a tetrahedral cluster Al4Br4, akin to the analogous boron compound.

Al2Br6 consists of two AlBr4 tetrahedra that share a common edge. The molecular symmetry is D2h.

The monomer AlBr3, observed only in the vapor, can be described as trigonal planar, D3h point group. The atomic hybridization of aluminium is often described as sp2. The Br-Al-Br bond angles are 120 °.

Synthesis

By far the most common form of aluminium bromide is Al2Br6. This species exists as hygroscopic colorless solid at standard conditions. Typical impure samples are yellowish or even red-brown due to the presence of iron-containing impurities. It is prepared by the reaction of HBr with Al:

2 Al + 6 HBr → Al2Br6 + 3 H2

Alternatively, the direct bromination occurs also:

2 Al + 3 Br2 → Al2Br6

Reactions

Al2Br6 dissociates readily to give the strong Lewis acid, AlBr3. Regarding the tendency of Al2Br6 to dimerize, it is common for heavier main group halides to exist as aggregates larger than implied by their empirical formulae. Lighter main group halides such as boron tribromide do not show this tendency, in part due to the smaller size of the central atom.

Consistent with its Lewis acidic character, water hydrolizes Al2Br6 with evolution of HBr and formation of Al-OH-Br species. Similarly, it also reacts quickly with alcohols and carboxylic acids, although less vigorously than with water. With simple Lewis bases (L), Al2Br6 forms adducts, such as AlBr3L.

Aluminium tribromide reacts with carbon tetrachloride at 100 °C to form carbon tetrabromide:

4 AlBr3 + 3 CCl4 → 4 AlCl3 + 3 CBr4

and with phosgene yields carbonyl bromide and aluminium chlorobromide:[citation needed]

AlBr3 + COCl2 → COBr2 + AlCl2Br

Al2Br6 is an excellent reagent for Friedel-Crafts and related Lewis acid-promoted reactions such as epoxide ring openings and decomplexation of dienes from iron carbonyls. It is a stronger Lewis acid than the more common Al2Cl6. Because it is hygroscopic, older samples tend to be hydrated and less useful. Impure samples can be purified by vacuum sublimation.

Uses

The anhydrous form is used as a catalyst for the Friedel-Crafts alkylation reaction. Its catalytic activity is similar to anhydrous aluminium chloride. However, commercial applications are rare.

References

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