Chemistry:Sodium selenate

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Sodium selenate
Natriumselenat.svg
Names
IUPAC name
Sodium selenate
Identifiers
3D model (JSmol)
ChEBI
ChEMBL
ChemSpider
DrugBank
EC Number
  • 236-501-8
RTECS number
  • VS6650000
UNII
UN number 2630
Properties
Na2O4Se
Molar mass 188.947 g·mol−1
Appearance White or grey powder
Density 3.098 g/cm3
soluble
Pharmacology
1=ATC code }} A12CE01 (WHO)
Hazards
GHS pictograms GHS06: ToxicGHS08: Health hazardGHS09: Environmental hazard
GHS Signal word Danger
H301, H331, H373, H410
NFPA 704 (fire diamond)
Flammability code 0: Will not burn. E.g. waterHealth code 4: Very short exposure could cause death or major residual injury. E.g. VX gasReactivity code 0: Normally stable, even under fire exposure conditions, and is not reactive with water. E.g. liquid nitrogenSpecial hazards (white): no codeNFPA 704 four-colored diamond
0
4
0
Flash point Non-flammable
Related compounds
Other anions
Sodium sulfate
Other cations
Potassium selenate
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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Infobox references

Sodium selenate is the inorganic compound with the formula Na2SeO4, not to be confused with sodium selenite. It exists as the anhydrous salt, the heptahydrate, and the decahydrate.[1] These are white, water-soluble solids. The decahydrate is a common ingredient in multivitamins and livestock feed as a source of selenium. The anhydrous salt is used in the production of some glass. Although the selenates are much more toxic, many physical properties of sodium selenate and sodium sulfate are similar.[2]

Production

Sodium selenate is produced by oxidation of selenium, first with nitric acid, producing selenous acid. The selenous acid is neutralized to form sodium selenite. The sodium selenite is oxidized in a basic medium hydrogen peroxide to form a selenate, which is then spray-dried.[3]

Se + 2HNO3 → H2SeO3 + NO + NO2
H2SeO3 + Na2CO3 → Na2SeO3 + H2O + CO2
Na2SeO3 + H2O2 → Na2SeO4 + H2O.

It was prepared shortly after the discovery of selenium by Jöns Jacob Berzelius in 1817.

Industrial uses

Glass manufacturing

One of the earliest applications of sodium selenate was in the glass industry. Selenium produces a red hue in glass. The molten glass is treated with sodium selenate and then arsenic trioxide to reduce the compound and provide elemental selenium. Sodium selenate is also used as a decolorizing agent in glass production. The red hue it gives glass is complementary to the green hue given by ferrous oxides in the manufacturing process. When used together, the two compound produce a colourless glass.[4]

Pesticide

Sodium selenate is a common ingredient in some insecticides used against mites, aphids, and mealybugs. For most insects, a dose of 10 mg/kg is enough to be fatal.[5][6] It is also used in some fungicides.

Bio-fortification of crops

Sodium selenate is effectively used for bio-fortification of crops hence fortifying food/feed to mitigate selenium deficiency in humans and livestock. It can be applied as foliar spray or via rooting medium e.g. added in fertilizers.

Dietary supplement

Chosen for its selenium content and high solubility, sodium selenate is a common ingredient in over-the-counter vitamin supplements. Selenium is a trace essential element. Sodium selenate and selenite are also common in premix animal feed. Neither compound has demonstrated a difference in the amount of selenium absorbed. The US FDA regulates that animal feed contain no more than 5 ppm selenium content.[7] Controversy arose in 2009 when a group of 21 polo horses died from selenium poisoning from an incorrectly mixed dietary supplement.[8]

Toxicology

The US FDA and European Union currently classify sodium selenate as toxic, primarily if ingested or inhaled. Testing on rats showed a dose of 1.6 mg/kg to be lethal. A low lethal dose as this places the chemical as being 2 to 3 times more toxic than sodium cyanide. As such, it is extremely toxic and must be handled with care. For a 70 kilograms (150 lb) person, this dosage corresponds to 112 mg, or, in terms of 200 µg pills, 560 pills. Chronic exposure to sodium selenate can cause severe lung, kidney, and liver damage.[9]

Overexposure to selenium in the diet leads to a condition known as selenosis. Selenosis occurs at blood levels greater than 100 µg/dL. Symptoms include gastrointestinal upsets, hair loss, white blotchy nails, garlic breath odour, fatigue, irritability, and mild nerve damage.[10]

References

  1. Kamburov, S.; Schmidt, H.; Voigt, W.; Balarew, C. (2014). "Similarities and peculiarities between the crystal structures of the hydrates of sodium sulfate and selenate". Acta Crystallographica Section B: Structural Science, Crystal Engineering and Materials 70 (4): 714–22. doi:10.1107/S2052520614007653. PMID 25080250. Bibcode2014AcCrB..70..714K. 
  2. Langner, Bernd E. (2005). "Selenium and Selenium Compounds". Ullmann's Encyclopedia of Industrial Chemistry. Wiley. doi:10.1002/14356007.a23_525. ISBN 3527306730. 
  3. ; Martensson, Ulf S. & Paulsson, Karin M."Method for producing selenium salts" US patent 4605544, issued 1986-08-12
  4. Whitaker, Milton C. (1912-07-01). "Selenium Glass". Journal of Industrial and Engineering Chemistry 7 (4): 539–540. doi:10.1021/ie50043a031. 
  5. Krieger, K. (2001). Handbook of Pesticide Toxicology. 1. San Diego, California: Academic Press. 
  6. Hanson, Brady; Lindblom, Stormy Dawn; Loeffler, Miriam L.; Pilon-Smits, Elizabeth A. H. (2004-04-05). "Selenium protects plants from phloem-feeding aphids due to both deterrence and toxicity". New Phytologist 162 (3): 655–662. doi:10.1111/j.1469-8137.2004.01067.x. PMID 33873760. 
  7. Podoll, K. L.; Bernard, J. B.; Ullrey, D. E.; DeBar, S. R.; Ku, P. K.; Magee, W. T. (1992-06-01). "Dietary selenate versus selenite for cattle, sheep, and horses". Journal of Animal Science 70 (6): 1965–1970. doi:10.2527/1992.7061965x. PMID 1321804. 
  8. "Officials blame mineral for horse deaths". Fort Worth Star-Telegram 104 (4): p. A7. 2009-04-29. https://www.newspapers.com/clip/104146221/officials-blame-mineral-for-horse-deaths/. open access
  9. Ganther, H. E.; Baumann, C.A. (1962-08-01). "Selenium Metabolism: II. Modifying Effects of Sulfate". The Journal of Nutrition 77 (4): 408–414. doi:10.1093/jn/77.4.408. PMID 13896696. 
  10. "Selenium: Fact Sheet for Health Professionals" (in en-US). 2021-03-26. https://ods.od.nih.gov/factsheets/selenium-HealthProfessional/.