Photolysis of formamides and acetamides studied ... - ACS Publications

S. R. Bosco, Alexander Cirillo,16 and Richard B. Timmons. Contribution from the Chemistry Department, The Catholic University of. America, Washington,...
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Photolysis of Formamides and Acetamides Studied by Electron Spin Resonancela S. R. BOSCO,Alexander Cirillo,'b and Richard B. Timmons Contribution f r o m the Chemistry Department, The Catholic University of America, Washington, D. C. Received December 20, 1968 Abstract: The primary free-radical producing step in the photolysis of formamide is shown to be the formation of

H atoms and CONHz radicals. Photolysis of acetamide produces CH, and CONH2. Substitution of a methyl group on the nitrogen atom in these compounds does not change the primary step in that C-H and C-C bond scission is observed for N-methylformamide and N-methylacetamide, respectively. The free radicals produced at - 196" were identified from their esr absorption spectra. The use of deuterium-labeled samples and generation of free radicals by OH radical attack on the parent molecules were used to help identify the free radicals produced in the photochemical decompositions.

T

he use of esr spectroscopy to identify the free radicals produced in photochemical decompositions has been employed in a number of reactions. Recently Volman and coworkers have used this technique in elucidating the photochemistry of aliphatic amines,2a as well as with some sulfur-containing compounds.zb This method was shown to be very useful in solving problems associated with the photodecomposition of nitro and nitroso compound^.^ In this type of work, photolyses are carried out in rigid matrices, usually at -196". Under these conditions the resulting esr absorption lines are quite broad; however, the resolution has been sufficiently good to provide unequivocal evidence for the primary steps in the above-mentioned photodecompositions. In this paper we report the results of our esr study of the free radicals produced in the photolysis of formamide, acetamide, and their Nmethyl derivatives. The photolysis of acetamide has been the subject of several studies. In aqueous solution, the photolysis was suggested to lead to CH3C0 and NH, formation, followed by subsequent decomposition of the acetyl radical. However, in dioxane or hexane solution the primary decomposition has been reported to be nonfree radical in nature but occurs via direct formation of CH3NH2 and C 0 . 5 Gas-phase photolysis of acetamide has been shown to produce CH3, CO, and N H z . ~ However, at the temperatures required for the gas-phase work any initially formed radicals such as CONHZand CHBCO would undergo unimolecular decomposition, and it was not possible to distinguish among the following primary steps. CHzCONHz

+ h v +C H C O + NH? +CH3 + CONHz +CH, + CO + NHz

In addition to these reactions, direct molecular formation of CH3CNand HzO was reported.6 (1) (a) This research was supported by the Public Health Service, Grant No. GM-14110; (b) National Science Foundation Undergraduate Research Participant, Summer 1968. (2) (a) S. G. Hadley and D. H. Volman, J . Amer. Chem. Soc., 89, 1053 (1967); (b) D.H. Volman, J. Wolstenholme, and S. G. Hadley, J . Phys. Chem., 71,1798 (1967). (3) B. H. J. Bielski and R . B. Timmons, ibid., 68,347 (1964). (4) D.H. Volman, J . Amer. Chem. Soc., 63,2000 (1941). (5) G. H.Booth and R. G. W. Norrish,J. Chem. Soc., 188 (1952). (6) B. C.Spa11 and E. W. R. Steacie, Proc. Roy. Soc. (London), A239, l(1957).

Journal of the American Chemical Society

91:12

h e 4, 1969

In view of the above results, we felt that definitive information on the photochemistry of acetamide might be obtained from the esr absorptions of free radicals produced in these reactions. Acetamide is a particularly interesting molecule to $udy because at the wavelengths employed (A