Perbromate

In chemistry, the perbromate ion is the anion with the chemical formula BrO−4. It is an oxyanion of bromine, the conjugate base of perbromic acid, in which bromine has the oxidation state +7.^[1] Unlike its chlorine (ClO−4) and iodine (IO−4) analogs, it is difficult to synthesize.^[2] It has tetrahedral molecular geometry.^[3]

Perbromate

Space-filling model of the perbromate anion, BrO−4
Identifiers
CAS Number	16474-32-1 N[PubChem]
3D model (JSmol)	Interactive image
ChEBI	CHEBI:29246
ChemSpider	4574125
PubChem CID	5460630
InChI InChI=1S/BrHO4/c2-1(3,4)5/h(H,2,3,4,5)/p-1 Key: LLYCMZGLHLKPPU-UHFFFAOYSA-M
SMILES [O-]Br(=O)(=O)=O
Properties
Chemical formula	BrO4−
Molar mass	143.901 g·mol−1
Related compounds
Related compounds	bromide hypobromite bromite bromate
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa). Infobox references

The term perbromate also refers to a compound that contains the BrO−4 anion or the −OBrO₃ functional group.

The perbromate ion is a strong oxidizing agent.^[2] The reduction potential for the BrO−4/Br⁻ couple is +0.68 V at pH 14. This is comparable to selenite's reduction potential.

Synthesis

Attempted syntheses of perbromates were unsuccessful until 1968, when it was finally obtained by the beta decay of selenium-83 in a selenate salt:^[4][5]

⁸³
SeO²⁻
₄ → ⁸³
BrO⁻
₄ + β⁻

Subsequently, it was successfully synthesized again by the electrolysis of LiBrO
₃, although only in low yield.^[5][6] Later, it was obtained by the oxidation of bromate with xenon difluoride.^[3][7] Once perbromates are obtained, perbromic acid can be produced by protonating BrO⁻
₄.^[2]

One effective method of producing perbromate is by the oxidation of bromate with fluorine under alkaline conditions:^[2][8]

BrO⁻
₃ + F
₂ + 2 OH⁻
→ BrO⁻
₄ + 2 F⁻
+ H
₂O

This synthesis is much easier to perform on a large scale than the electrolysis route or oxidation by xenon difluoride.^[8]

In 2011 a new, more effective synthesis was discovered: perbromate ions were formed through the reaction of hypobromite and bromate ions in an alkaline sodium hypobromite solution. The reaction (and its perchlorate analogue) occurs naturally, but very slowly, requiring several days to complete.^[9]

Diperiodatonickelate anions in alkaline solution can oxidise bromate to perbromate. This is a relatively lower cost and fluorine free synthesis.^[10]

See also

Other bromine anions:

Bromine oxidation state	−1	+1	+3	+5	+7
Name	bromide	hypobromite	bromite	bromate	perbromate
Formula	Br−	BrO−	BrO− 2	BrO− 3	BrO− 4
Structure