THE QUANTUM YIELD OF THE PHOTO-DECOMPOSITION OF SOME AROMATIC DIAZONIUM SALTS

CPYRG Approved For Release 1999/09/24: CIA-RDP83-00423R002000130005-0 SEPARAAT 2053 LABORATORIIA N.V. PHILIPS' GLOEILAMPENFABRIEKEN EINDHOVEN (HOLLAND) THE QUANTUM YIELD OF THE PHOTO- DECOMPOSITION OF SOME AROMATIC DIAZONIUM SALTS J. de JONGE, R. DIJKSTRA and G. L. WIGGERINK GEPUBLICEERD IN: RECUEIL DES TRAVAUX CHIMIQUES DES PAYS BAS 71, 846-852, AUGUSTUS 1952 Approved For Release 1999/09/24: CIA-RDP83-00423R002000130005-0  ApproveRor'Re1e se 1999/09/g4: CIA-RDP83-00423R002000130005- RECLIEIL DES TRAVAUX CHIMIQUES DES PAYS-PAS pub). par la Soc. chim. neerl. ['s-Gravenhage (Hollande), Lange Voorhout 5] T. 71, 8 (aout 1952). Soc, anon. d'editions scientifiques. D. B. CENNTEN, Amsterdam. 547.556.7 : 541,14.8 THE QUANTUM YIELD OF THE PHOTO-DECOMPOSITION OF SOME AROMATIC DIAZONIUM SALTS J. DE JONGE, R. DIJKSTRA and G. L. WIGGERINK (Philips Research Laboratories, N.V. Philips' Gloeilampenfabrieken, Eindhoven - Netherlands). The quantum yield of the photo-decomposition of some aromatic diazonium salts in solution is estimated, using light with a wavelength of 3650 A. - . The photo-decomposition of phenyl-amino benzene diazonium sulphate is proposed as a suitable actinometer. The quantum yield of the photochemical isomerisation of stable p-methoxy-benzenediazo-cyanide was found to be about 0.35. Many aromatic diazonium salts are photo-sensitive. The action of light of suitable wavelength, e.g. 3500-4000 A, generally leads to a decomposition into the corresponding phenol together with generation of nitrogen light R-N2CI -,- H2O -> ROH + N2 + HCI If a hydroxy-group is present in the aromatic nucleus in o-position to 'the diazonium group (o-hydroxy:diazonium compounds, o-diazo- oxides) the photo-decomposition product is a derivative of cyclopenta- diene or indene carboxylic acid 1). light i / II 1CO2H + 0i-) H2O --r ~ + + N 2 Generally, the decomposition of diazonium salts in acidic aqueous solution may be a carbonium-ion reaction. In the case of the o-hydroxy-diazonium compounds a re-arrangement takes place in the transient, carbor;ium-ion 2). Under suitable conditions there are no side reactions since prolonged 1) O. Sus, Ann. 556, 65, 85 (1944) ; J. de Jonge and R. Dykstra, Rec, tray. chim. 67, 328 (1948). ?) J. de Jonge and R. Dykstra, Rec. tray. chim. 69, 1448 (1950). Approved For Release 1999/09/24 CIA-RDP83-00423R002000130005-(  CPYRGHT App Loved For Release 1999/09/24: CIA-RDP83-00423R002000130005-0 847 J. de Jorge, R. DUkstra and G. L. Wiggerink, irradiation of diazonium salts may lead to a complete decomposition accompanied by the generation of nitrogen to almost the theoretical amount obtainable 3). The present paper deals with the determination of the quantum efficiency of this photochemical decomposition in aqueous solution, which may be found from the amount of diazonium compound decomposed after absorption of a known nuriiber of light quanta. A suitable measure for the photochemical effect is the volume of generated nitrogen or the decrease in the concentration of diazonium salt. The latter decrease may be calculated from the light absorption of the solution before and after exposure. Experimental values for the quantum yield qp have hitherto been reported only for two diazonium salts. Nz(+) pc-) H3O(+) SOS{-) For phenyl-amino-benzene diazonium sulphate (1) in aqueous solu- tion Schrdter a) found p = 0.20 when irradiating with light of 3650 A. The volume of generated nitrogen was measured as a displacement of a drop of toluene in a capillary tube mounted horizontally. With the light absorption method a value of (y = 0.63 was found, while 0roodeve and Wood 5) reported qp = 0.34. Schrdter measured a quantum yield q = 0.34 for 2-naphthol-dia- zonium-4-sulphonic acid (II) using the nitrogen method and irra- diation with light of 3650 A. Using the light absorption method the same aut)ior reported p = 0.58. while Fukushima 6) found a much lower value, viz. p = 0.16, These data appear to be rather scattering. Here a report is given on the determination of the quantum yield of further diazonium salts, including the two compounds mentioned above, taking the volume of generated nitrogen as a measure for the degree of decomposition. The solutions of the diazonium salts containing 0.001-0.004 mole 6) J. S. Schmidt and W. Maier, Ber. 64, 778 (1931); G. Spencer and T. J. Taylor, Chemistry 1' Industry 22, 308 (1947). See also the experimental part of this paper. 4) W. Schrdter, Z. w.. Phot. 28, 1 (1930). 6) C. P. Goodeve and L. J. Wood, Proc. Roy. Soc. A 166, 342 (1938). 6) 1. Pukushima and M. Florio, Mem. Coll. Eng. Kyoto Imp. Univ. 6, 184 (1930/31). Approved For Release 1999/09/24: CIA-RDP83-00423R002000130005-0  CPYRGHT App ved For Release 1999/09/24: CIA-RDP83-00423R002000130005-0 The quantum yield of the photo-decomposition, etc. 71 (1952) RECUEIL 848 per litre were exposed in a closed cell to the radiation of a high- pressure mercury lamp provided with a Wood filter. The light source, giving almost monochromatic light of 3650 A, was calibrated by means of a thermopile and'with the uranyl-oxalate actinometer. All the light falling on the cell was absorbed by the solution. The nitrogen produced was collected in a 2 ml nitrometer with the aid of a slow current of pure carbon dioxide. A schematical diagram of the apparatus is given in figure I. Further details of the procedure are to be found in the experimental part. .capillary tube 34mm The, results have been tabulated in the table on the next page. Unless otherwise mentioned the diazonium salts were `irradiated in aqueous solution. For the compounds III and V, being practically insoluble in water, 20 % and 40 % aqueous ethanol was chosen as a solvent. The quantum yields of the diazonium salts investigated vary from 0.20 to 0.74. Our figure for phenyl-aminobenzene diazonium sulphate is in complete agreement with the result of Goodeve and Wood. The yield for diazonaphthol -1,2 (III) is found to approximate closely that of its sulphonic acid (II). A quantum yield cp = 0.47 is found both for the p-hydroxybenzene-diazonium salt (IV) and for the o-hydroxy- benzene-diazonium compound (VI). The photo-decomposition of diazonium salts for actinometric pur- poses. The generation of a known amount of nitrogen after irradiating of, e.g., phenyl-aminobenzene-diazonium sulphate with ultraviolet light (3650 A) may be used as a suitable actinometer. The value = 0.35 for the quantum yield may be taken. Another suitable diazonium salt is naphthol-diazonium-sulphonic acid (II) with