Question

(a) Illustrate the following reactions giving suitable example in each case :
(i) Hoffmann bromaimide degradation reaction
(ii) Diazotisation
(iii) Gabriel phthalimide synthesis

(b) Distinguish between the following pairs of compounds :
(i) Aniline and N-methylaniline
$\left(ii\right)(C{H}_3{)}_{2}NH$ and $(C{H}_3{)}_{3}N$

Answer 1

(a) (i) Hoffmann bromamide degradation reaction: It involves the converstion of a primary amide to a primary amine containing one carbon atom less than original amide with a mixture of $B{r}_2$ in presence of NaOH or KOH.

$e.g.,\underset{\text{Acetamide}}{C{H}_{3}CON{H}_2}+B{r}_2+4NaOH\stackrel{\Delta }{\to }\underset{\text{Methyl amine}}{C{H}_{3}N{H}_2}+2NaBr+N{a}_{2}C{O}_3+2H_{2}O$

$\underset{\text{Benzamide}}{C_6{H}_{5}CON{H}_2}+B{r}_2+4KOH\stackrel{\Delta }{\to }\underset{Aniline}{C_6{H}_{5}N{H}_2}+2KBr+K_{2}C{O}_3+2H_{2}O$

(ii) Diazotisation: It involves the formation of arenediazonium salt when a cold solution of a primary aromatic amine in a dilute mineral acid $\left(HClor{H}_{2}S{O}_4\right)$ is treated with a cold solution of nitrous acid (generated in situ by the action of $dil.HCl$ or $dil.H_{2}S{O}_4$ on $NaN{O}_2$ at 273 -278 K).
$e.g.,NaN{O}_2+HCl\to \underset{\underset{acid}{Nitrous}}{HONO}+NaCl$



(iii) Gabriel phthalimide synthesis: It involves the conversion of phthalimide to its potassium salt by treating it with alcoholic potassium hydroxide. Potassium phthalimide is then treated with an alkyl halide to yield an N-alkylphthalimide which is hydrolysed to phthalic acid and a primary amine by heating with HCl or KOH solution.



(b) (i) Distinction between Aniline and N-methylaniline
Azo dye test: Aniline on treatment on treatment with $HN{O}_2(NaN{O}_2+dil.HCl)$ at 273 -278 K gives benzene diazonium chloride which on subsequent treatment with an alkaline solution of $\beta$-Naphthol gives a brilliant red azo dye.


On the other hand, N-methyl aniline under these conditions gives yellow coloured oily N-methyl-N-nitroaniline.
$C_6{H}_5-\underset{\underset{\underset{\text{N-methylaniline}}{C{H}_3}}{|}}{NH}+HO-N=O\to C_6{H}_5-\underset{\underset{\underset{\underset{\text{(Yellow oil)}}{\text{N-Methyl-N-nitroaniline}}}{C{H}_3}}{|}}{N}-N=O+H_{2}O$
N-Methyl-N-nitroaniline on warming with a crystal of phenol and conc. $H_{2}S{O}_4$ gives a green solution which when made alkaline with aq. NaOH turns deep blue and then red on dilution.

(ii) Distinction between $(C{H}_3{)}_{2}NH$ and $\left(C{H}_3\right)N$
$(C{H}_3{)}_{2}NH$ reacts with nitrous acid to give N-nitrosoamine which being insoluble indilute mineral and separates out as a neutral yellow oily compound.
$NaN{O}_2+HCl\to \underset{\text{Nitrous acid}}{HONO}+NaCl\underset{\text{Dimethylamine}}{(C{H}_3{)}_{2}NH}+HONO\to \underset{\underset{\text{(Yellow oil)}}{\text{N-Nitroso dimethylamine}}}{(C{H}_3{)}_{2}N-N=O}+H_{2}O$
N-Nitrosoamine on heating with a crystal of phenol and a few drops of conc. $H_{2}S{O}_4$ form a green solution which when made alkaline with aqueous NaOH, turns deep blue and then red on dilution.
$\underset{\text{Trimethylamine}}{(C{H}_3{)}_{3}N}+HN{O}_2\to \underset{\underset{\text{nitrite (soluble)}}{\text{Trimethylammonium}}}{\left[\right(C{H}_3{)}_{3}N{H}^{+}]N{O}_2^{-}}$