120 CHEMISTRY AND TECHNOLOGY OF EXPLOSIVES(71)(72)T. Urbanski and Kutkiewicz [70] found that 5-nitro-8-hydroxyquinoline, when
boiled with a solution of sodium nitrite in 10% hydrochloric or sulphuric acid,
yielded 5,7-dinitro-8-hydroxyquinoline:
(73)The sodium nitrite is used in an excess. The yield of dinitro-8-hydroxyquinoline
obtained amounts to about 30% (cf. also the reaction 7, p. 85). The mechanismof this reaction cannot consist in the formation of a nitroso compound which
would be oxidized to a nitro compound, as no nitrosation of a nitrophenol is
known.
NITROUS ACID IN THE PRESENCE OF HYDROGEN PEROXIDE
Hydrogen peroxide reacts with nitric and nitrous acids to form the correspond-
ing pernitric acids, of which pernitrous acid is a better defined compound. Baeyer
and Williger [163] reported the possibility of obtaining it by reacting ethylhydro-peroxide with alkyl nitrate. Raschig [164] has studied the action of hydrogen per-
oxide on nitrous acid and found such a mixture to be a more powerful oxidizing
agent than each of the components taken separately.
Raschig was not correct in ascribing the structure of pernitric acid, HNO 3 ,to the product of reaction of H 2 O 2 with HNO 2. Schmidlin and Massini [165] have
proved it to be a pernitrous acid HO-ONO. Extensive studies on pernitrous
acid have been carried out by Trifonov [166], who found that hydrogen peroxide
when reacted with nitrous acid formed the peroxide, N 2 O 6 , which gave nitrous
acid under the influence of water, the solution appearing yellow for a while.
Kortüm and Finckh [I67] found the absorption spectrum of the yellow so-
lution was similar to that of the nitrate ion, showing however some difference.
The kinetics of the reaction of nitrous acid with hydrogen peroxide have been