Английская Википедия:Hexafluorosilicic acid

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Шаблон:Short description Шаблон:Redirect Шаблон:Chembox

Hexafluorosilicic acid is an inorganic compound with the chemical formula Шаблон:Chem. Aqueous solutions of hexafluorosilicic acid consist of salts of the cation and hexafluorosilicate anion. These salts and their aqueous solutions are colorless.

Hexafluorosilicic acid is produced naturally on a large scale in volcanoes.[1][2] It is manufactured as a coproduct in the production of phosphate fertilizers. The resulting hexafluorosilicic acid is almost exclusively consumed as a precursor to aluminum trifluoride and synthetic cryolite, which are used in aluminium processing. Salts derived from hexafluorosilicic acid are called hexafluorosilicates.

Structure

Файл:(H5O2)2SiF6, ICSDcode 40388full.png
Structure of (H5O2)2SiF6. The hydrogen bonding between the fluoride and protons are indicated by dashed lines. Color code: green = F, orange = Si, red = O, gray = H.[3]

Hexafluorosilicic acid has been crystallized as various hydrates. These include (H5O2)2SiF6, the more complicated (H5O2)2SiF6·2H2O, and (H5O2)(H7O3)SiF6·4.5H2O. In all of these salts, the octahedral hexafluorosilicate anion is hydrogen bonded to the cations.[3]

Aqueous solutions of hexafluorosilicic acid are often described as Шаблон:Chem.

Production and principal reactions

Hexafluorosilicic acid is produced commercially from fluoride-containing minerals that also contain silicates. Specifically, apatite and fluorapatite are treated with sulfuric acid to give phosphoric acid, a precursor to several water-soluble fertilizers. This is called the wet phosphoric acid process.[4] As a by-product, approximately 50 kg of hexafluorosilicic acid is produced per tonne of HF owing to reactions involving silica-containing mineral impurities.[5]Шаблон:Rp

Some of the hydrogen fluoride (HF) produced during this process in turn reacts with silicon dioxide (SiO2) impurities, which are unavoidable constituents of the mineral feedstock, to give silicon tetrafluoride. Thus formed, the silicon tetrafluoride reacts further with HF.Шаблон:Citation needed The net process can be described as:[6]Шаблон:Page needed

Шаблон:Chem2

Hexafluorosilicic acid can also be produced by treating silicon tetrafluoride with hydrofluoric acid.[6]

Reactions

Hexafluorosilic acid is only stable in hydrogen fluoride or acidic aqueous solutions. In any other circumstance, it acts as a source of hydrofluoric acid. Thus, for example, hexafluorosilicic acid pure or in oleum solution evolves silicon tetrafluoride until the residual hydrogen fluoride re-establishes equilibrium:[6]

H2SiF6 Шаблон:Eqm 2 HF(l) + SiF4(g)

In alkaline-to-neutral aqueous solutions, hexafluorosilicic acid readily hydrolyzes to fluoride anions and amorphous, hydrated silica ("SiO2"). Strong bases give fluorosilicate salts at first, but any stoichiometric excess begins hydrolysis.[6] At the concentrations usually used for water fluoridation, 99% hydrolysis occurs:Шаблон:R[7]

Шаблон:Chem + 2 H2O → 6 F + SiO2 + 4 H+

Alkali and alkaline earth salts

Neutralization of solutions of hexafluorosilicic acid with alkali metal bases produces the corresponding alkali metal fluorosilicate salts:

H2SiF6 + 2 NaOH → Na2SiF6 + 2 H2O

The resulting salt Na2SiF6 is mainly used in water fluoridation. Related ammonium and barium salts are produced similarly for other applications. At room temperature 15-30% concentrated hexafluorosilicic acid undergoes similar reactions with chlorides, hydroxides, and carbonates of alkali and alkaline earth metals.[8]

Sodium hexafluorosilicate for instance may be produced by treating sodium chloride (Шаблон:Chem2) by hexafluorosilicic acid:Шаблон:R[9]Шаблон:Rp

Шаблон:Chem2 Шаблон:Overset Шаблон:Chem2
Шаблон:Chem2 Шаблон:Overset Шаблон:Chem2

Heating sodium hexafluorosilicate gives silicon tetrafluoride:Шаблон:R

Шаблон:Chem2 Шаблон:Overset Шаблон:Chem2

Uses

The majority of the hexafluorosilicic acid is converted to aluminium fluoride and synthetic cryolite. These materials are central to the conversion of aluminium ore into aluminium metal. The conversion to aluminium trifluoride is described as:[6]

H2SiF6 + Al2O3 → 2 AlF3 + SiO2 + H2O

Hexafluorosilicic acid is also converted to a variety of useful hexafluorosilicate salts. The potassium salt, Potassium fluorosilicate, is used in the production of porcelains, the magnesium salt for hardened concretes and as an insecticide, and the barium salts for phosphors.

Hexafluorosilicic acid and the salts are used as wood preservation agents.[10]

Lead refining

Hexafluorosilicic acid is also used as an electrolyte in the Betts electrolytic process for refining lead.

Rust removers

Hexafluorosilicic acid (identified as hydrofluorosilicic acid on the label) along with oxalic acid are the active ingredients used in Iron Out rust-removing cleaning products, which are essentially varieties of laundry sour.

Niche applications

H2SiF6 is a specialized reagent in organic synthesis for cleaving Si–O bonds of silyl ethers. It is more reactive for this purpose than HF. It reacts faster with t-butyldimethysilyl (TBDMS) ethers than triisopropylsilyl (TIPS) ethers.[11]

Treating concrete

The application of hexafluorosilica acid to a calcium rich surface such as concrete will give that surface some resistance to acid attack.[12]

CaCO3 + H2O →  Ca2+ + 2 OH + CO2
H2SiF6 → 2 H+ + Шаблон:Chem
Шаблон:Chem + 2 H2O → 6 F + SiO2 + 4 H+
 Ca2+ + 2 F → CaF2

Calcium fluoride (CaF2) is an insoluble solid that is acid resistant.

Natural salts

Some rare minerals, encountered either within volcanic or coal-fire fumaroles, are salts of the hexafluorosilicic acid. Examples include ammonium hexafluorosilicate that naturally occurs as two polymorphs: cryptohalite and bararite.[13][14][15]

Safety

Hexafluorosilicic acid can release hydrogen fluoride (HF) when evaporated, so it has similar risks. Inhalation of the vapors may cause lung edema. Like hydrogen fluoride, it attacks glass and stoneware.[16] The LD50 value of hexafluorosilicic acid is 430 mg/kg.Шаблон:R

See also

References

Шаблон:Reflist

Шаблон:Hydrogen compounds

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  1. Palache, C., Berman, H., and Frondel, C. (1951) Dana’s System of Mineralogy, Volume II: Halides, Nitrates, Borates, Carbonates, Sulfates, Phosphates, Arsenates, Tungstates, Molybdates, etc. John Wiley and Sons, Inc., New York, 7th edition.
  2. Anthony, J.W., Bideaux, R.A., Bladh, K.W., and Nichols, M.C. (1997) Handbook of Mineralogy, Volume III: Halides, Hydroxides, Oxides. Mineral Data Publishing, Tucson.
  3. 3,0 3,1 Шаблон:Cite journal
  4. USGS. Fluorspar.
  5. Шаблон:Cite web
  6. 6,0 6,1 6,2 6,3 6,4 Шаблон:Ullmann
  7. Шаблон:Cite journal
  8. Шаблон:Cite book
  9. Шаблон:Cite patent
  10. Шаблон:Cite journal
  11. Шаблон:Cite book
  12. Properties of Concrete by A M Neville
  13. Шаблон:Cite web
  14. Шаблон:Cite web
  15. Шаблон:Cite journal
  16. Шаблон:Cite web
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