Kinetics of Deamination of Oxidized N,N-Disubstituted p

Kinetics of Deamination of Oxidized N,N-Disubstituted p-Phenylenediamines. L. K. J. Tong. J. Phys. Chem. , 1954, 58 (12), pp 1090–1097. DOI: 10.1021...
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1090

L. K. J. TONG

Vol. 58

The sample was then degassed and the first incre- point was measured after 16 hours. The isotherm ment of gas allowed to remain in contact with the was continuous. Isotherms (1) and (3) coincide a t solid for 16 hours. With succeeding increments higher pressures; a t equal pressures the amount the rate of adsorption was quite high and apparently adsorbed by isotherm (3) is equal to or greater than equilibrium attained in five minutes. The isotherm the amount adsorbed by isotherm (1). thus obtained is plotted as partially filled circles It would appear that the continuous isotherm in Fig. 2. It should be noted that this isotherm is (3) rather than the discontinuous isotherm (1) smooth and coincides with the discontinuous represents the equilibrium state. It is not possible, isotherm a t pressures exceeding 7.5 microns. however, to rule out the possibility that (3) repreWe thus have looked a t three systems: (1) sents a “supersaturation” phenomenon and that Two-hour points with a cylindrical sample con- the discontinuous isotherm has significance. The tainer. Apparent equilibrium was attained ; the marked dependence of the rates of adsorption on isotherm was discontinuous. (2) Two-hour points the time allowed for attainment of equilibrium of with a tray sample container. Apparent equilib- the first point is evident; no explanation can be rium was not attained and adsorption rates were offered a t the present time. These findings suggest slow as compared to (1). (3) Apparent equilibrium that any measurements yielding discontinuous points with a tray sample container; the initial isotherms be carefully checked.

KINETICS OF DEAMINATION OF OXIDIZED N,N-DISUBSTITUTED p-PHENYLENEDIAMIIVJES BY L. K. J. TONG Communication No. 1849 f r o m the Kodak Research Laboratories, Research Laboratories, Eastman Kodak Company, Rochester, N . Y. Received May $9, 1964

An experimental technique is described for following the reactions of the deamination of oxidized N,N-disubstituted pphenylenediamines. Over a pH range of 7 to 12, the deamination of the substituted amino group fits the second-order rate equation involving the product of the concentrations of hydroxide ion and quinonediimine. The deamination of the unsubstituted amino group fits the first-order rate equation in buffered solutions, and the rate constants are insensitive to the change in pH. The variations in reactivity due to substitution can be largely accounted for by inductive effects.

Introduction the main reaction involved a t high pH is the deamMany of the processes of color photography ination of the substituted imino group. employ a substituted p-phenylenediamine type of Experimental developing agent to obtain a reduced silver image Materials.-For convenience, the developing agents will from the exposed silver halide emulsion. I n the be referred t o in this article by roman numerals as given in reduction of silver halide, the diamine is oxidized Table I . These N,N-disubstituted phenylenediamines beto the diimine, which then undergoes a coupling long to a class of color-developing agents commonly used. reaction with a suitable agent, called a coupler, The samples were as prepared for earlier experiments5 and to form an appropriate dye.’ I n any study of the have been stored under refrigeration. Compound IX was mechanism of the dye-forming reactions, a knowlTABLE I edge of the stability and reactivity of the diimines STRUCTURE OF DEVELOPING AGENTS is a prerequisite. This paper describes the development of suitable techniques for studying in solution the kinetics of the reactions involved, the application of these techniques to the specific problem of the rate of deamination of the diimines, Y (salt) No. and the interpretation of the results obtained. 2HC1 I It has been known for a long time that both HCI I1 substituted and unsubstituted qiiinonediimines HCI I11 undergo deamination reactions in acid s0lutions.~~3 I V HCI In alkaline solutions, N-substituted quinonedi2HCI V imine has been shown by Cameron4 to be highly VI unstable, but the reactions involved were not VI1 1/zHzS04 specified. We shall show in a later section that (1) C. E. IC. Mees, “The Theory of the Photographic Process,” rev. ed., The Maomillan Co., New York, N. Y.,1954, p. 586. R. M. Evans. W. T. Hanson, Jr., and W. L. Brewer, “Prinoiplea of Color Photography,” John Wiley and Sons, Inc., New York, N. Y.. 1953, p. 257; P. W. Vittum and A. Weissberger, J . Phot. Science, in press (1954). (2) R. WillstQtter and E. Mayer, Ber., 37, 1499, 1501 (1904); R. Willstatter and J. Piccard, ibid., 41, 1473 (1908). (3) L. F. Fieser. J. Am. Chem. Soc., 62, 4915 (1930). (4) A. E. Cameron. THISJOURNAL, 42, 1217 (1938).

VIII

HO-(~-~-~-H,~/~(COOH)~

IX

HO--