تحضير وتشخيص معقدات بعض العناصر الانتقالية مع ليكاندات نتروجينية ودراسة فعاليتها الحيوية == Preparation And Identification Complexes of Some Transition Metales With Nitrogeneus Ligands And Study Its Biological Activity
Author name:
علي ابراهيم علي بكر الجبوري
Supervisor name:
نهلة عبد الحميد عبد الجبار
General topic:
Chemistry
Specific topic:
Chemistry
Degree:
Master
University:
Tikrit University - College Of Science - Chemistry Department
Language:
Arabic
University location:
Salahaddin
First pages:
25T1455 - p.pdf
Abstract:
تضمن البحث تحضير كاشفين جديدين هما الكاشف 3 - ((4,5 - diphenyl imidazole) diazenyl) benzene sulfonic acid ويرمز له (DPIDBSA) والكاشـــف2 - ((3 - methoxy phenyl) diazenyl) - 4,5 - diphenyl imidazole ويرمز له (MBDPI) وذلــــك من مفاعلة ملـح الديازونيـوم ل | This thesis included the preparation of the two new reagents 3 - ((4,5 - diphenyl imidazole) diazenyl) benzene sulfonic acid (DPIDBSA) and 2 - ((3 - methoxy phenyl) diazenyl) - 4,5 - diphenyl imidazole (MBDPI) by reacting adiazonium salt solution of (3 - aminobenzene sulfonic acid) and (3 - methoxyaniline) with (4,5 - diphenyl imidazole) in alkaline ethanoic Solution.The identity of these reagents have been characterized by spectral methods such as(UV - Vis) , FTIR , another physical properties (m.p.) and elemental analysis.The ionization constant of the reagent (DPIDBSA) was determine using spectroscopic method , the pKa was equal to 9.9.Six chelating complexes of the above reagents were synthesized with metal ions) Co2+, Ni2+, Cu2+). The two wavelength of maximum absorption for the two reagents were found (422nm) and (416nm) respectively in ethanol and for the complexes formed between these ions with these reagents were found at (476, 492, 504nm) and (455, 458, 496nm) for cobalt(II) , nickel(II) and copper(II) respectively in aqueous medium.It has been prepared after fixing the optimum condition of concentration and acidity function, through the study of UV - Vis spectrum for reacting of metal solution and two reagents solution. For wide range of pH (5 - 11) and concentration which obey to Beer - Lambert Law.The structures were determine according to the mole ratio method and continuous variation method which is obtained from the spectroscopic studies of the complex solutions. The ratios of (metal : reagent) are equal to (1 : 2) for all the complexes ions.The stability of complexes in the solutions was also studied at the optimum conditions.Diagnosis the solid prepared complexes by UV - Vis spectrum in ethanol solution showed high chromic shift from as compared with free reagents in visible region to all the complexes prepared.Micro elemental analysis for all the complexes were prepared and the percentage of Co(II) and Cu(II) were determined , using flame atomic absorption spectroscopy, it was noticed a great accord between theoretical and particle ratio.The infrared spectrum of chelating complexes also studied and it's compared with the two reagents spectrum. They give notice change with free two reagents spectrum. These showed new bands that were not found original in two reagents spectra but other bands have been changed in shape, in trinity and location. This may indicate that a coordination between the metal ions and the two reagents prepared.The Conductivity measurements for solutions at (1×10 - 3M) in ethanol solution have shown non - ionic character for all chelate complexes.From the above observations, it's suggested stereo shapes for complexes, that show the two reagents (DPIDBSA) and (MBDPI) behave as bidentit reagent, we can conclude that the proposed geometrical structure of all chelate complexes are octahedral.The study also included using spectrum method for determination stability constant of complexes in the thermal rang (25 - 45C?) for complexes with reagent (DPIDBSA) while the thermal rang was (10 - 30 C?) for complexes with reagent (MBDPI), and calculating ?G , ?H and ?S for complexes.The bacterial activity of the ligand and it's complexes were studied toward two type of bacteria : 1 - Pseudomonas. aurginosa 2 - StaphylloCoccus. aureusThe complex of Ni(II) with reagent (DPIDBSA) and the complexes of Co(II), Ni(II) and Cu(II) with reagent (MBDPI) and metal ions solution showed high bacterial activity on Pseudomonas. aurginosa while the solution of two reagents and all chelate complexes prepared also the aqueous solution of metal ions don't showed any activity toward the two type of bacteria (StaphylloCoccus. aureus) (G+ve).
