تحضير وتشخيص بعض المشتقات الجديدة للمركب بارا - برومو انيلين ودراسة فعاليتها البايولوجية كمضادات (HIV) == Preparation And Identification of Some New Derivatives of P - Bromoaniline And Study In Vitro Anti - Hiv Assay
Author name:
رعد سعد جهاد
Supervisor name:
نجم عبود لعيبي المسعودي | نبيل عبد عبد الرضا
General topic:
Chemistry
Specific topic:
Chemistry
Degree:
Master
University:
University of Al-Qadisiyah - Faculty Of Education - Chemistry Department
Language:
Arabic
University location:
Qadisiyah
First pages:
25T1446 - p.pdf
Abstract:
بهدف التوصل الى ايجاد سطوح انتقائية طبيعية وذات فعالية عالية في امتزاز بعض المواد الدوائية , اجريت دراسة متكاملة لانظمة الامتزاز للمادة الدوائية التتراسيكلين ( Tetracycline ( في درجات حرارية مختلفة على سطح البوكسايت والبوكسايت المعدل )البوليمر(.حيث تم ف | In order to reach to find a natural selective surfaces and highly effective in the adsorption of some pharmaceuticals, it has been a comprehensive study of the adsorption systems for the pharmaceutical substance Tetracycline in different conditions of temperature, on the surface of bauxite and modified bauxite. In this study the bauxite has been activated and used to prepare two complexes : bauxite - urea and bauxite - melamine, these complexes were merged and polymerized with to prepare the complex bauxite polymer - urea - melamine - formaldehyde (modified bauxite).The complexes bauxite - urea and bauxite - Melamine were characterized by X - ray diffraction (XRD) and infrared spectroscopy (FT - IR), while the surface of bauxite and modified bauxite are characterized before and after the adsorption by X - ray diffraction techniques (XRD), infrared spectroscopy (FT - IR), atomic force microscope (AFM) and scanning electron microscopy (SEM), where measurements showed that the presence of two types of minerals included in the structure of bauxite which they are Gibsite and Buhimite in addition to small amounts of other minerals.(UV - visb.) Technique was used to investigate the adsorption quantitatively on the surfaces of bauxite and modified bauxite at the following temperatures (293,298,303,308,313,318 K).Search has been expanded to include also the study of adsorption kinetics of the drug substance (tetracycline) on surfaces mentioned above. It has been found that the surfaces of bauxite and modified bauxite used in the study have a ranking below in its ability to adsorption of drug substance : Bauxite> PolymerResults of the study also showed the applicability of Frendilh equation model for adsorption of drug substance on the surface of the above - mentioned bauxite and applicability to Langmiur equation for the adsorption of drug substance on the surface of modified bauxite. The isotherms of adsorption takes shape (S2max) at low temperatures and then start to turn into shape (L2max) at high temperatures in the adsorption of tetracycline on the surface of bauxite, while taking shape (Lmax)at low temperatures and then start to turn into shape (Smax) at high temperatures when the adsorption of drug substance took place on the surface of the modified bauxite.Thermodynamic quantities Have been calculated, it’s found that the adsorption of drug substance on the surface of bauxite and modified bauxite is endothermic when the adsorption constant calculated at greatest concentration while the adsorption of drug substance on the surface of bauxite was endothermic and exothermic on the surface of modified bauxite if the adsorption constant calculated at infinite dilution.The kinetic study of the adsorption of the drug substance on the above surfaces according to the developed Lagergreen equation then the rate constant of the process has been calculated at temperatures (293,298,303,308,313,318 K), through these values the activation energy value and the value of Arhiniuos coefficient have been calculated adsorption process, it was found that the value of activation energy and the value of the Arhiniuos coefficient follow the order below : Polymer> BauxiteAlso the surface area of the surfaces of bauxite and modified bauxite follow the order : Bauxite> Polymer
