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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

The synthesis of some new aromatic polycyclic hydrocarbons

Ojakaar, Leo January 1964 (has links)
In 1933, benzo[a]pyrene, a hydrocarbon, which was and still is of very great importance for cancer research, was isolated from coal tar and also was synthesized. In recent years more than 450 synthetic compounds have been found to be carcinogenic, and more than 200 are polycyclic aromatic hydrocarbons, their derivatives and analogues. Recently a new polynuclear hydrocarbon, a seven ring compound naphtho[2,1-a]perylene was synthesized in This Laboratory Physiological tests have revealed this compound to be a potent carcinogen. This experience has prompted a new initiative to prepare a number of related compounds of this type in order to bring further insight to the relation between chemical structure and the mechanism of physiological activity. During the synthesis of the four new seven fused aromatic ring systems and a new eight fused aromatic ring system, several modifications and improvement of existing synthetic procedures were made. A recently published modification of the Rosenmund-von Braun method of nitrile synthesis was successfully applied to the preparation of 2-(2-naphthylmethyl)benzonitrile. It was found that 2-(2-naphthylmethyl)phenyl-1-naphthyl ketone and 2-(2-naphthylmethyl)phenyl-2-naphthyl ketone could be prepared by the reaction of a Grignard reagent with a nitrile as well as by the inverse addition of a Grignard reagent to the appropriate acid chlorides. The alumina cyclodehydrogenation procedure was confirmed to be the, only method of synthesis that yields 12-(1-naphthyl)-benz[a]anthracene from its precursor ketone. The yield of 12-(2-naphthyl)benz[a]anthracene was increased from 61% to 83% when anhydrous hydrogen fluoride was used in place of 48% hydrogen bromide and glacial acidic acid as the cyclodehydration media of the precursor ketone. A new cyclodehydrogenation procedure was developed. This procedure, which employs a mixture of aluminum chloride-stannic chloride and alumina, was used to prepare a new hydrocarbon, naphtho[l,2-a]-perylene. An aluminum chloride-sodium chloride melt permeated with carbon dioxide was successfully employed in the preparation of naphtho[2,2-1]benzo- (a]pyrene, naphtho(l,2-l]benzo[a]pyrene, and naphtho- (2,3-1]benzo[a]pyrene. It was shown that high temperature gas chromatography with ionization detectors can be used with success to analyze all of the above discussed ketones, benz[a]anthracenes as well as the new perylene and pyrenes. Additional support of the validity of the. structures of naphtho[1,2-a]perylene and naphtho- [2,1-1]benzo[a]pyrene was provided when the cyclodehydrogenation of these hydrocarbons yielded one and the same product, naphtho[l,7,8-efg]anthanthrene. It was observed that the correlation between color and structure of the newly prepared hydrocarbons follows the principles of annelation. When the ultraviolet and visible spectra peak frequencies were compared it was found that the values and positions of the peaks follow the principles of the annelation method. The examination of the infrared absorption spectra revealed that naphtho[l,2-a]perylene, naphtho[2,1l-1]benzo[a]pyrene, naphtho[1,2-1]benzo[a]-pyrene, and naphtho[2,3-1]benzo[a]pyrene exhibited Peaks at all four, "solo," "duo," "trio," and "quartet", carbon-hydrogen vibration regions, but as expected naphtho[1,7,8-efg]anthanthrene had the "quartet" carbon-hydrogen peak missing between 770 and 755 cm. which further substantiated the validity of the naphtho[1,7,8-efg]anthanthrene structure. The TNF molecular adducts of the five newly prepared compounds, naphtho[1,2-a]perylene, naphtho- [2,1-1]benzo[a]pyrene, naphtho1l,2-1]benzo[a]pyrene, naphtho[2,3-1]benzo[a]pyrene, and naphtho[1,7,8-efg]-anthanthrene were prepared and their melting points recorded. In order to ascertain the structures of the naphtho[1,2-a]perylene and the naphtho[1,2-l]benzo[a]-pyrene obtained from the cyclodehydrogenation of 12-(1-naphthyl)benz[a]anthracene and 12-(2-naphthyl)-benz[a]anthracene, respectively, other routes of synthesis were undertaken. The hydrocarbon, 11-(1-naphthyl)benz[a]anthracene, was prepared by the reaction of 1-naphthylmagnesium bromide with 11-keto-5,6,8,9,10,11-hexahydrobenz[a]- anthracene which on distillation under reduced pressure gave 11-(1-naphthyl)-5,6,8,9-tetrahydrobenz[a]anthracene and on aromatization yielded 11-(1-naphthyl)benz[a]-anthracene. When 1-naphthyl magnesium bromide was allowed to react with the 11-keto-8,9,10,11-tetrahydrobenz[a]anthracene, 11-(1-naphthyl)-8,9~dihydrobenz[a]anthracene was obtained when distilled under reduced pressure. This, likewise, gave 11-(1-naphthyl)- benz[a]anthracene on aromatization. Naphtho[1,2-a]perylene was synthesized unequivocally from 11-(1-naphthyl)benz[a]anthracene via a cyclodehydrogenation reaction. The hydrocarbon, 1-(1-naphthyl)-1,2,3,4-tetrahydrobenz[a]anthracene, was prepared by the reaction of 1-naphthylmagnesium bromide with 1-keto-1,2,3,4- tetrahydrobenz[a]anthracene. On distillation under reduced pressure 1-(1-naphthyl)-1,2,3,4-tetrahydrobenz[a]anthracene was obtained. Under the conditions of an aromatization procedure, naphtho[1,2-1]benzo[a]-pyrene was obtained. The hydrocarbons 11-(1l-naphthyl)-5,6,8,9-tetrahydrobenz[a]anthracene, 11-(1-naphthyl)-8,9-dihydrobenz[a]anthracene, 11-(1-naphthyl)benz[a]-anthracene, 1-(1-naphthyl)-1,2,3,4-tetrahydrobenz[a]anthracene are additional new compounds. / Ph. D.

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