Sodium perchlorate

Selected properties

Its heat of formation is −382.75 kJ/mol, i.e. it is thermally stable up to high temperatures. At 490 °C it undergoes thermal decomposition, producing sodium chloride and dioxygen. {{cite journal|last1 = Devlin|first1 = D. J.|last2 = Herley|first2 = P. J.|date = 1987|title = Thermal decomposition and dehydration of sodium perchlorate monohydrate It crystallizes in the rhombic crystal system.

Uses

Perchloric acid is made by treating with HCl. Ammonium perchlorate and potassium perchlorate, of interest in rocketry and pyrotechnics, are prepared by double decomposition from a solution of sodium perchlorate and ammonium chloride or potassium chloride, respectively.

Laboratory applications

Because of its high solubility (2096 g/L at 25 °C) and the inert behaviour of dissolved perchlorate, solutions of are often used as unreactive background electrolyte (supporting electrolyte). Indeed, because the reduction reaction of perchlorate is kinetically limited even if it is a thermodynamically unstable compound, perchlorate is a redox non-sensitive anion. It is also a non-complexing anion with a fairly low ligand binding capacity.

In the past perchlorates were quite widely used in the synthesis of coordination compounds because their larger size (compared to halides) and excellent hydrogen bonding abilities made them highly effective counter-ions for complexes with ammine, aquo and halido ligands, often yielding highly crystalline products. However because of the hazards (see Safety Section below) associated with their use they have been largely superseded in most labs by much less risky counterions like fluoroborate (BF4–, PF6–) and related anions.

Sodium perchlorate is the precursor to ammonium, potassium and lithium perchlorate salts, often taking advantage of their low solubility in water relative to (209 g/(100 mL) at 25 °C).

It is used for denaturating proteins in biochemistry and in standard DNA extraction and hybridization reactions in molecular biology.

In medicine

Sodium perchlorate can be used to block iodine uptake before administration of iodinated contrast agents in patients with subclinical hyperthyroidism (suppressed TSH).

Production

Sodium perchlorate is produced by anodic oxidation of sodium chlorate () at an inert electrode, such as platinum.

: (acidic medium) : (alkaline medium)

Safety

All perchlorates are potent oxidisers. When mixed with organic compounds or powdered metals like aluminum, extreme combustion reactions can result, hence the use of such materials in fireworks, low tech rocket propellants and improvised explosives. Because of their kinetic inertness mixtures of perchlorate with organic compounds or powdered metals do not ignite/detonate spontaneously and are shock insensitive.

Acute toxicity

The median lethal dose (LD50) is 2 – 4 g/kg (rabbits, oral).

Chronic toxicity

The frequent consumption of drinking water with low concentrations (in the range of μg/L, ppb) of perchlorate is harmful for the thyroid gland as the perchlorate anion competes with the uptake of iodide severely disrupting thyroid function.

Environmental effects

Perchlorate anions are regarded as persistent pollutants that can cause long term contamination of drinking water and NaClO4's high solubility makes it highly mobile in the environment. Significant concerns have been raised about the environmental impacts of perchlorates because of its ability to disrupt iodide uptake and metabolism.

References

References

1. (July 6, 2017). "Perchlorates on Mars enhance the bacteriocidal effects of UV light". Scientific Reports.
2. Delbecq, Denis. (September 28, 2015). "De l'eau liquide répérée sur les pentes martiennes".
3. Eagleson, Mary. (1994). "Concise Encyclopedia Chemistry". Walter de Gruyter.
4. (1994). "Linkage Isomerism in Cobalt(III) Pentaammine Complexes of 2-Pyridone". Inorganic Chemistry.
5. Becker, C. (2007, September). Radiologisch praxisrelevante prophylaxe und therapie von nebenwirkungen jodhaltiger kontrastmittel. [Prophylaxis and treatment of side effects due to iodinated contrast media relevant to radiological practice]. ''Der Radiologe''. '''47'''(9), 768–773. {{doi. 10.1007/s00117-007-1550-4
6. Helmut Vogt. (2000). "Chlorine Oxides and Chlorine Oxygen Acids". Wiley-VCH.
7. (2014). "Environmental impacts of perchlorate with special reference to fireworks—a review". Environmental Monitoring and Assessment.