Periodatonickelates Explained

The per­iodato­nickelates are a series of anions and salts of nickel complexed to the periodate anion. The most important of these salts are the di­periodato­nickelates, in which nickel exhibits the +4 oxidation state: these are powerful oxidising agents, capable of oxidising bromate to perbromate.

The first per­iodato­nickalates discovered were sodium nickel periodate (NaNiIO₆·0.5H₂O) and potassium nickel periodate (KNiIO₆·0.5H₂O). P. Ray and B. Sarma obtained these dark purple double salts in 1949, mixing nickel sulfate with potassium or sodium periodate and (as oxidant) a boiling aqueous solution of an alkali persulfate salt.^[1] It is now known that ozone can replace the persulfate salt, and that similar solids exist for other alkali (RbNiIO₆·0.5H₂O, CsNiIO₆·0.5H₂O, and NH₄NiIO₆·0.5H₂O), as well as certain other tetravalent metals (including manganese, germanium, tin and lead).

The crystalline salts are insoluble in water, acid, or base.^[2] The colour is due to absorbance of visible light shorter than 800 nm, with a peak at 540 nm. The crystal structure of each has space group P312. The structure is built from hexagonal oxygen layers; in every other layer, alkali atoms fill one-third of the hexagon centers and iodine and nickel fill the remainder; in the other layers, the centers are vacant.

The di­periodato­nickelates, also known as dihydroxy­diperiodato­nickelates,^[3] contain nickel in the +4 oxidation state along with two periodate anions. A solid mono­periodato­nickelate salt KNiIO₆·0.5H₂O will dissolve in a solution of potassium hydroxide and potassium periodate to yield a di­periodato­nickelate solution.^[4]

The ion can form a brown salt with sodium ·6H₂O), another acidic sodium salt ·H₂O) and an orange salt with cobalt).^{[5] [6]} Di­periodato­metalates with the same formula also exist for palladium and nickel, and similar di­periodato­metalates can be made for Cu, Ag, Au, Ru and Os.

A di­periodato­nickelate will dissolve in alkaline water. Depending on pH and concentration, the resulting solution is an equilibrium between and .^[7] It is also a strong oxidiser: like very few reagents, it oxidises bromate to perbromate. In the reaction, Ni^IV reduces to Ni^III with the release of a hydroxyl radical. The radical then oxidises bromate to a BrO₄²⁻ radical, which Ni^III then converts to perbromate BrO₄⁻.

Notes and References

1. Ray . P. . Sarma . B. . 11 May 1946 . Tetrapositive Nickel as Alkali Nickel Periodates . Nature . 157 . 3993 . 627 . 1946Natur.157..627R . 10.1038/157627a0 . free.
2. Currie. David B.. Levason. William. Oldroyd. Richard D.. Weller. Mark T.. Synthesis, spectroscopic and structural studies of alkali metal–nickel periodates MNilO6(M = Na, K, Rb, Cs or NH4). J. Chem. Soc., Dalton Trans.. 1994. 9. 1483–1487. 10.1039/DT9940001483.
3. Web site: Li. Zhi-Ting. Chang. Qing. Li. Bao-Wen. Yang. Li-Ting. Wang. An-Zhou. Kinetics and Mechanism of Oxidation of Ethylenediamine by Dihydroxydiperidatonickelate(IV) Complex Ion in Alkaline Medium. 3 June 2016. May 2000.
4. Hiremath . Chanabasayya V. . Hiremath . Deepak C. . Nandibewoor . Sharanappa T. . May 2007 . Ruthenium(III) catalysed oxidation of gabapentin (neurontin) by diperiodatonickelate(IV) in aqueous alkaline medium: A kinetic and mechanistic study . Journal of Molecular Catalysis A: Chemical . 269 . 1–2 . 246–253 . 10.1016/j.molcata.2007.01.024.
5. Dengel. Andrew C.. El-Hendawy. Ahmed M.. Griffith. William P.. Mostafa. Sahar I.. Williams. David J.. Transition-metal periodato complexes. Their preparations and properties as catalytic oxidants, and X-ray crystal structure of Na4 K[Au{IO5(OH)}2]·KOH·15H2O. J. Chem. Soc., Dalton Trans.. 1992. 24. 3489–3495. 10.1039/DT9920003489.
6. Mukherjee. H. G.. Bhansidhar. Mandal. Shyamali. De. Preparation and studies of the complex periodatoferrate (III) hexahydrate and periodatonickelate (IV) monohydrate. Chemischer Informationsdienst. 9 October 1984. 15. 41. 10.1002/chin.198441038. not consulted
7. Bilehal . Dinesh C. . Kulkarni . Raviraj M. . Nandibewoor . Sharanappa T. . January 2002 . Kinetics and Mechanism of Oxidation of Bromate by Diperiodatonickelate(IV) in Aqueous Alkaline Medium--A Simple Method for Formation of Perbromate . Inorganic Reaction Mechanisms . 4 . 1–2 . 103–109 . 10.1080/1028662021000020244.