تحضير وتشخيص ودراسة تحليلية - طيفية لبعض اصباغ السلفا الجديدة == Synthesis, Characterization and Analytical - Spectral Study of some New Sulfa Dyes
Author name:
رجاء حسین فیاض
Supervisor name:
اسعد عبود علي | فاطمة مھدي الجابري
General topic:
Chemistry
Specific topic:
Chemistry
Degree:
Doctorate
University:
University Of Basrah - College Of Education For Pure Sciences
Language:
Arabic
University location:
Basrah
First pages:
25T1607 - p.pdf
Abstract:
Including preparation of six new symmetrical azodyes of selfa compounds ( sulfaguanidine , sulfanilamide and sulfadiazine , A1 - A3 respectively ) and ( mercuration of sulfaguanidine , sulfadiazine and sulfanilamide , B1 - B3 respectively ) by oxidative - coupling reaction of sulfa compounds and their mercuration with oxidizing agent ( 1,2 - nephthaquinone - 4 - methoxy ) . The color of prepared azodyes were orange to orange - redish with melting points ranges ( 275 - 312 oC ). The azodyes were characterized by C H N , FT - IR , H NMR and TG analysis. The electronic spectra of azodyes were showed max. wavelength range ( 440 - 460 nm. ).The acid - base properties were studied at pH values in the range of ( 0.7 - 12 ), the electronic spectra of azodyes were scanned at wavelength range of ( 350 - 600 nm. ) . The isopestic point of each dye were fixed and the protonation and ionization constants were determined by half - height method. The effect of solvents of different polarities on the azodyes spectra was also studied . From that spectra it was found that most of solvents no effect except for polar solvent like DMF ,which showed a light red shift ( that may be for the hydrogen bonding between dye and solvent ) . From the relation of max. wavelength and dielectric parameter of each dye , it was found that linearity or slightly deviation of linearity in case of polar solvent . That means the major effect is dielectric constant of the solvent The second subpart : The ability of using all prepared azodyes as acid - base indicators ( strong acid with strong base and weak acid with strong base ). The results were compared with that obtained from the recommended method . It was found that no significant observed between the two methods by using of relative error .The last subpart : Including complex formation between two of studied azodyes ( A1 & A3 ) with Ni2+ by forming 1 : 2 ( M : L ) complexes by aid of molar ratio method.The optimum conditions were studied which including ( the effects of , time , pH , sequence of addition and interferences ). The spectra of two complexes showed a red shift from their azodyes . The obeyness of Beer's law , molar absorbtivity coefficient , sandel resistivity , relative error , relation coefficient and detection limit were all determined . The effect of foreign ions with concentrations of ( 1 - fold , 5 - fold and 10 - fold ) on the absorbance of the complexes was also studied . The overall stability constants ( β1 & β2 ) of Niazodyes complexes were determined by using corresponding solutions method which including half - height method . The complexes were also characterized by C H N and FT - IR .Part two : Including simple , easy and sensitive spectrophotometric method for the microdetermination of sulfa and mercurated salfa compounds in aqueous solution and pharmaceutical compounds .This method depends on the oxidative - coupling between the reagent hydroxyl nephthaline - 4 - sulphonic acid in strong acid medium by forming colored imine - quinone dyes in max. wavelength ran ( 480 - 510 nm.). The optimum conditions which including ( volume of reagent , volume and kind of the oxidizing agent , volume and kind of the acid , sequence of additions , time effect and temperature effect ) . The electronic spectra of the dyes were carried on in the range of ( 350 - 600 nm.).This method was applied pharmaceutical compounds ( Tablets and Creams ) that containing sulfadiazine .It was found there are no significant difference between results of this method and the composition of the sulfa drugs , that observed from calculated relative rror.By the aid of C.H.N. , FT - IR and stoichiometry ( molar ratio method ) of forming the complexes, the chemical structure of the complexes Ni2+ and A1 & A3 dyes were suggested .
