NITRATION AGENTS AND METHODS MORE RARELY USED 99(22)Numerous experiments on the action of nitrogen dioxides on olefins were car-
ried out by Demyanov and Sidorenlco [76] between 1909 and 1934. They obtained
products of the types IIa and III.
Schaarschmidt and Hoffmeier [40] found that on treating unsaturated hydro-
carbon with N 2 O 4 a mixture of products of the I, II, III, and IV types was obtained.
Only the dinitro compounds of type III were stable. Others underwent decom-
position in the following way:I Nitrosoolefin NitroolefinIIb NitroolefinIV Unstable nitriteIt was originally thought that the addition of dinitrogen tetroxide to the double
bond of an olefin in a weakly basic solvent such as ether is a heterolytic (ionic
-NO 2+
NO 2- ) addition.
Results of recent study, however, have been interpreted in terms of a homo-
lytic process. Schechter and Conrad [49] have observed that the production of
methyl-3-nitroacrylate and methyl-2-hydroxy-3-nitropropionate in the reaction
between N 2 O 4 and methyl acrylate could not be explained on the basis of hetero-
lytic addition, but was to be expected if a homolytic process were occurring.
Brown [80] has shown that olefin nitration under circumstances in which the
nitronium ion (NO 2- ) is the reactant has characteristics entirely different from those
of the N 2 O 4 -olefin reaction. Brand and I. D. R. Stevens [81] also believed the
reaction of addition of nitrogen dioxide to olefins to involve radicals. According
to these authors the following experimental facts provide evidence for this:
(1) Cyclohexene reacted with dinitrogen tetroxide (N 2 O 4 ) to yield l,2-dinitro-
cyclohexane and 2-nitrocyclohexyl nitrite.
(2) However, in the presence of two moles of bromotrichloromethane the re-
action followed a different course, and the normal products, 1,2-dinitrocyclo-