Testing for the
various types of amines
Background
The reaction between
amines and nitrous acid was used in the past as a very neat way
of
distinguishing between primary, secondary and tertiary amines. However, the
product
with a secondary amine is a powerful carcinogen, and so this reaction
is no longer carried
out at this level.
Nitrous acid, HNO2,
(sometimes written as HONO to show its structure) is unstable and is
always
prepared in situ.
It is usually made by
reacting a solution containing sodium or potassium nitrite (sodium or
potassium nitrate(III)) with hydrochloric acid.
Nitrous acid is a weak
acid and so you get the reaction:
Because nitrous acid
is a weak acid, the position of equilibrium lies well the right.
In each of the
following reactions, the amine would be acidified with hydrochloric acid and
a solution of sodium or potassium nitrite added. The acid and the nitrite
form nitrous acid
which then reacts with the amine.
Primary amines and
nitrous acid
The main observation
is a burst of colourless, odourless gas. Nitrogen is given off.
Unfortunately, there
is no single clear-cut equation that you can quote for this.
You get lots
of
different organic products. For example, amongst the products you get an
alcohol
where the -NH2 group has been replaced by OH. If you want
a single equation,
you could quote (taking 1-aminopropane as an example):
. . . but the
propan-1-ol will be only one product among many - including propan-2-ol,
propene, 1-chloropropane, 2-chloropropane and others.
The nitrogen, however,
is given off in quantities exactly as suggested by the equation.
By measuring
the amount of nitrogen produced, you could use this reaction to
work out the
amount of amine present in the solution.
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Secondary amines and
nitrous acid
This time there isn't
any gas produced. Instead, you get a yellow oil called a nitrosamine.
These
compounds are powerful carcinogens - avoid them!
For example:
Tertiary amines and
nitrous acid
Again, a quite
different result. This time, nothing visually interesting happens - you are
left with a colourless solution.
All that has happened
is that the amine has formed an ion by reacting with the acid present. With trimethylamine,
for example, you would get a trimethylammonium ion, (CH3)3NH+.
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Sunday, 30 April 2017
the various types of amines
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