Organic Chemistry of Explosives

174 Synthetic Routes to AromaticC-Nitro Compounds

NO 2

NO 2

53

O 2 N

NH 2

VNS aminating agent

(NH 2 OH, ATA, TMHI)

DMSO, NaOMe

NH 2

H 2 N NH 2

NO 2

NO 2

14

O 2 N

Figure 4.60

Recently, TATB (14) has been synthesized by treating TNB and picramide (53) with VNS

aminating agents like 4-amino-1,2,4-triazole (ATA) and 1,1,1-trimethylhydrazinium iodide

(TMHI) in the presence of sodium methoxide in DMSO.^37 ,^283 Hydroxylamine has been used

but requires elevated temperatures for the same reaction. The main advantage of these methods

is the reduction in the production cost of TATB as a result of relatively inexpensive starting ma-

terials i.e. picramide (from Explosive D) and TMHI (from UDMH). Explosive D (ammonium

picrate) and UDMH are readily available in large quantities in several advanced countries as

a result of implementation of demilitarization programmes in these countries.^283

4.9 The chemistry of 2,4,6-trinitrotoluene (TNT)

2,4,6-Trinitrotoluene (TNT) is a readily available and useful precursor to many other polyni-

troarylenes. Many of the reactions utilizing TNT in this way make use of the acidity of the

methyl group protons. This is itself a consequence of the strengthened hyperconjugation in

TNT as a result of the large negative inductive effect generated by having three nitro groups

on the aromatic nucleus.

CH

NO 2

137

O 2 N NO 2

CH 3

NO 2

1

O 2 N NO 2

CH 2 CH 2 NEt 2

NO 2

136

O 2 N NO 2

CH 2 CH 2 OH

NO 2

138

O 2 N NO 2

CH 2 CH 2 Cl

NO 2

139

O 2 N NO 2

CH 2

Et 2 NH, CH 2 O 1. CH 3 I

2. Ag 2 O

POCl 3 ,

pyridine

Et 2 NH

CH 2 O

Figure 4.61

The acidity of the methyl group in TNT is illustrated by its ability to participate in Mannich-

type reactions; in the same role as a ketone, the methyl group of TNT behaves as a nucleophile