Oxidation Inhibition by Diphenylamine - Journal of the American

J. R. Thomas, C. A. Tolman. J. Am. Chem. Soc. , 1962, 84 (15), pp 2930–2935. DOI: 10.1021/ja00874a017. Publication Date: August 1962. ACS Legacy Arc...
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J . R . THO~C~AS AND C. A . TOLMAN

butyl radicals to etlrylrne and ethyl radicals is the dominant reaction. 'Flie ldrge amount of ethane cannot be accounted for only by dimerization of methyl. Hydrogenation of ethylene and ethyl radicals by atomic and molecular hydrogen is indicated. The presence of methane, propane and propylene suggests the decomposition of about one-tenth the n-butyl radicals to propylene and methyl radicals. Carbon balances show less than 1 P / C of the carbon content in the c5-C~products.

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Hydrogen balances on the gaseous products qhow an increase of $-17y0in hydrogen coiitent Conclusion.-In the temperature range 200-450' azobutanes can be used as sources of free radicals. They decompose via first-order kinetics to give butyl radicals and nitrogen. However n-butyl, isobutyl and sec-butyl are unstable, easily decomposing to lower alkenes and alkyl radicals. If the isomeric butyl radicals as such are desired in a reaction, one must bear in mind this instability.

CALIFORNIA RESEARCHCORPORATIOX, RICHMOND, CALIF.]

Oxidation Inhibition by Diphenylamine BY J . R. THOMAS A N D C . A. TOT,MAN RECEIVED MARCH2-1, I!%?

A detailed study has been made of the inhibiting action of diphenylamine in the oxidation of cuinene. Electron spill resomnce has permitted the observation and identification of a relatively stable intermediate radical, diphenyl nitric oxide. Kinetic studies show t h a t it is produced from a sequence of reactions between alkplperoxy radicals and diphenylatnine which quantitatively follow the requirements of the Boozer-Hammond mechanism for oxidation inhibition. Critical rate constants are evaluated and limiting values are placed upon t h e equilibrium constant for the reversible reaction between cumylperoxy radical, diphenylamine and the complex species of the Boozer-Hammond mechanism. analysis tubes, were not measured immediately they were stored in liquid nitrogen until they were analyzed. Use of Diphenylnitric Oxide a s a Radical Trap .-Diphenylnitric oxide is an attractive material to use a s a radical counting material in many situations. While in the pure crystalline form i t is considerably less stable than the commonly used a,a'-diphenylpicryl hydrazyl, its solutions are stable for prolonged periods of time. Even in solvents containing reactive hydrogeii, such as cumene, its half-life a t 100' is in excess of 50 hours. In addition, as is discussed below, it can be used reliably in the presence of oxygen under some conditions. I t s disadvantages are the lack of stability of the crysExperimental I~iphenylnitricoxide was made by the method of Wieland.4 talline material a t room temperature and its lack of the intense colur change upon reaction which is characteristic o f I t was purified by recrystallization from 50-50 ether and UPPH. This latter characteristic renders the use of e.