تحضير وتشخيص الليكاند 7 - ]2 - (بنزاميدازوليل) ازو [ - 8 - هيدروكسي كوينولين مع بعض ايونات العناصر الانتقالية ودراستها ضوئيا == Preparation And Identification of Ligand 7 - [2 - (Benz Imidazolyl)Azo] - 8 - Hydroxy Quinoline (BIAHQ) And With Some of Transition Elements Ions And Photo Study
Author name:
سؤدد عبد الباقر جابر
Supervisor name:
حسن عباس حبيب | خالد جواد العادلي
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:
25T1506 - p.pdf
Abstract:
لقد تضمنت هذه الرسالة تحضير نوع جديد من ليكاندات الازو العضوية غير المتجانسة حلقيا الحاوية على مجموعة ازو واحـدة وهو الليكاند 7 - ]2 - (بنزاميدازوليل ازو[ - 8 - هيدروكسي كوينولين(BIAHQ).وقد تم تشخيص هذا الليكاند بوساطة طيف الكتلة وبروتون طيف الرنين الن | This research included prepare a new ligand of azo organic heterocyclic ring containing one azo group which ligand 7 - [2 - (Benzimidazolyl azo) - 8 - hydroxy quinoline] (BIAHQ). Has been identification this ligand by mass spectrometry , proton nuclear magnetic resonance spectra ,infrared and UV - visible as well as analysis of the elements(C,H,N), included the preparation of four complexes of ligand (BIAHQ) with metal ions Co 2+ , Ni 2+,Cu 2+ and Zn2+ also studied the spectra of infrared spectra of the complexes prepared, and when compared with the spectra of the free ligand gave the obvious changes have shown these spectra a new peaks were not already present in the spectra ligand This is due to corrdenation between the metal ions under study with the atoms donor nitrogen group azo and nitrogen atom imidazole ring (N3) in the molecule of ligand, suffered with other peakes obvious changes in the shape, intensity and location, and an indication of this process for corrdenation between the metal ions under study and ligand, also studied the spectra of UV - visible, as well as a rigorous analysis of the elements (C,H,N) has been shown by the results agreat compatibility between the ratios calculated theoretically and practically of acquired. Through the results that have been reached suggested formulas compositional complexes showing through which that ligand azo imidazole mono - azo behave as ligand Triplalt coordenat through a nitrogen atom imidazole ring (N3),nitrogen group azo away from the ring heterogeneous and Oxygen of hydroxy quinoline group, which leads to the formation of complexes hexagonal symmetry. Studied the kinetics of photochemical dissociation of these complexes claw through irradiation solution single - wavelength light 365=? nm issued by the mercury lamp low pressure and at a temperature of 25 ?c and show that the interaction of dislocation is first order for all complexes. Was calculated photolysis rate constant kd mediated follow spectral changes during the process of irradiation. For access to the optimum conditions for the dissolution of these complexes have been studying the impact of several factors on the behavior of photochemical included : study the effect of the change in the intensity of light on the rate of disintegration and found that the increas in the intensity of the incident light increased the rate of disintegration of the complexes , as well as the study of the disintegration of the complexes in the temperature range 30 - 15?c found it increasing the temperature increases rate of disintegration. Values were calculated activation energy for all complexes , also studied the effect of the acidic function within the range of 9.3 and found that the rate of the disintegration of the four complexes increases with increasing pH solution. It was the study of the effect of the solvent polarity on the rate of disintegration using solvents ( methanol , ethanol,1 - butanol and isopropanol ) and found that the higher the rate of the disintegration of the complexes have been achieved in methanol , while lower rate was in isopropanol.Also thermal stability studied for ligand and complexes were submitted to thermal analysis (TGA and DSC) activation thermodynamic data are calculated and determainTg ,Tc , Tm and Td.
