Sodium fusion test

The sodium fusion test, or Lassaigne's test, is used in elemental analysis for the qualitative determination of the presence of foreign elements, namely halogens, nitrogen, and sulfur, in an organic compound. It was developed by J. L. Lassaigne.^[1]

The test involves heating the sample with sodium metal, "fusing" it with the sample. A variety of techniques has been described. The "fused" sample is plunged into water, and the qualitative tests are performed on the resultant solution for the respective possible constituents.^[2][3]

The halogens, nitrogen, and sulfur are covalently bonded to the organic compounds are converted to various sodium salts formed during the fusion. Typically proposed reactions are:

Na + C + N → NaCN

Na + C + N + S → NaSCN

2Na + S → Na₂S

Na + X → NaX

The fate of the hydrocarbon portion of the sample is disregarded.

The aqueous extract is called sodium fusion extract or Lassaigne's extract.

The sodium fusion extract is made alkaline by adding NaOH. To this mixture, freshly prepared FeSO₄ solution is added and boiled for some time and then cooled. A few drops of FeCl₃ are added and Prussian blue (bluish green) color forms due to formation of ferric ferrocyanide along with NaCl. This shows the presence of nitrogen in the organic compound.^[4]

${\displaystyle {\ce {6CN- +Fe^2+ -> [Fe(CN)6]^4-}}}$

${\displaystyle {\ce {{3[Fe(CN)6]}^{4-}+4Fe^{3}+->[{\ce {xH2O}}]Fe4[Fe(CN)6]3\cdot xH2O}}}$

The sodium fusion extract is acidified with acetic acid and lead acetate is added to it. A black precipitate of lead sulfide indicates the presence of sulfur.

Freshly prepared sodium nitroprusside solution is added to the sodium fusion extract, turning the solution deep violet due to formation of sodium thionitroprusside.^[4]

${\displaystyle {\ce {S^2- + [Fe(CN)5NO]^2- -> [Fe(CN)5NOS]^4-}}}$

In case, both nitrogen and sulfur are present in an organic compound, sodium thiocyanate is formed which gives blood red color since there are no free cyanide ions.

${\displaystyle {\ce {Fe^3+ + SCN- -> [Fe(SCN)]^2+}}}$

The sodium fusion extract is boiled with concentrated HNO₃ followed by the addition of AgNO₃ solution which yields a white (AgCl) or yellow (AgBr or AgI) precipitate if halogen is present.^[4]

${\displaystyle {\ce {NaX + AgNO3 -> AgX + NaNO3}}}$

Sodium peroxide is added to the compound to oxidise phosphorus to sodium phosphate. It is boiled with concentrated HNO₃ and then ammonium molybdate is added. A yellow precipitate (ammonium phosphomolybdate) indicates the presence of phosphorus.^{[citation needed]}

${\displaystyle {\ce {Na3PO4 + 3HNO3 -> H3PO4 + 3NaNO3}}}$

${\displaystyle {\ce {H3PO4 + 21NaNO3 + 12(NH4)2MoO4 -> (NH4)3[P(Mo3 O10)4] + 21NH4NO3 + 12H2O}}}$

• Lab Manual from the University of West Indies, Mona

This article about analytical chemistry is a stub. You can help Wikipedia by expanding it.

• v
• t
• e