Difference between revisions of "Potassium hexachlorostannate"

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The salts can also be obtained by oxidation of an SnCl<sub>2</sub> solution in HCl, with hydrogen peroxide or nitric acid as oxidiser. Add KCl (or NH<sub>4</sub>Cl) as per above.
 
The salts can also be obtained by oxidation of an SnCl<sub>2</sub> solution in HCl, with hydrogen peroxide or nitric acid as oxidiser. Add KCl (or NH<sub>4</sub>Cl) as per above.
  
Potassium hexachlorostannate is the salt of a strong acid and its solutions react neutral in water. Addition of alkali or ammonia solution precipitates Sn(OH)<sub>4</sub>.nH<sub>2</sub>O.
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Potassium hexachlorostannate is the salt of a strong acid and its solutions react neutral in water. Addition of alkali or ammonia solution precipitates Sn(OH)<sub>4</sub>.nH<sub>2</sub>O. Further addition of strong alkali causes soluble stannate (K<sub>2</sub>Sn(OH)<sub>6</sub>) to form.
  
 
It is insoluble in 37 w% HCl which offers an easy method of purifying the salt.
 
It is insoluble in 37 w% HCl which offers an easy method of purifying the salt.

Revision as of 17:10, 30 January 2016

Potassium hexachlorostannate (IV) is prepared by dissolving tin metal (or pewter) in a mixture of nitric acid and hydrochloric acid. More or less stoichiometric amounts of the acids can be used in accordance with:

3 Sn(s) + 4 NO3-(aq) + 16 H+(aq) === > 3 Sn4+(aq) + 4 NO(g) + 8 H2O(l)

3 Sn4+(aq) + 18 HCl(aq) === > 3 SnCl62-(aq) + 18 H+(aq)

Dissolution is very swift and does not usually require heating.

Once complete the solution is brought to a gentle simmer and solid KCl is added, 2 mol per mol of tin. The mixture is then simmered and stirred until all the KCl is dissolved, then allowed to cool naturally, then further chilled on ice bath, e.g. overnight.

Well-formed crystals of K2SnCl6 are obtained.

Ammonium hexachlorostannate is obtained in identical conditions but by replacing KCl with NH4Cl.

Instead of pure tin, pewter (Sn/Sb alloy) can also be used because the corresponding Sb salt, KSbCl6 is very soluble even at low temperature and simply stays in solution.

The salts can also be obtained by oxidation of an SnCl2 solution in HCl, with hydrogen peroxide or nitric acid as oxidiser. Add KCl (or NH4Cl) as per above.

Potassium hexachlorostannate is the salt of a strong acid and its solutions react neutral in water. Addition of alkali or ammonia solution precipitates Sn(OH)4.nH2O. Further addition of strong alkali causes soluble stannate (K2Sn(OH)6) to form.

It is insoluble in 37 w% HCl which offers an easy method of purifying the salt.

On strong heating (> 300 C, est.) it releases SnCl4 (BP 114.15 C), so it affords a chlorine-free route to this useful chemical. The ammonium salt sublimes completely.