تحضير وتشخيص بعض معقدات الثايوسيانات الجسرية الحاوية على قواعد شف ودراسة فعاليتها البايولوجية == Preparation and Characterization of Some Bridged Thiocyanate Complexes Containing Schiff Base And Study of Their Biological Activity
Author name:
بشير جواد كاظم
Supervisor name:
مؤيد يوسف كاظم العبادي
General topic:
Chemistry
Specific topic:
Chemistry
Degree:
Master
University:
University Of Basrah - College Of Science - Chemistry Department
Language:
Arabic
University location:
Basrah
First pages:
25T1577 - p.pdf
Abstract:
In this study five ligands were prepared from condensation two amines (4 - methyl benzene - 1,2 - diamine and ortho phenylen diamine ) with two aldehydes( 4 - isopropyl benzaldehyde and 4 - diethyl amino benzaldehyde.These ligands were identified by elemental analysis, FT - IR , UV - visible, 1HNMR , 13CNMR and mass spectroscopy. The proposed chemical structure of these ligands are suggested as following : Binuclear tetrathiocyanates complexes [MM'(SCN)4 ; M=Co,Ni,Cd : M'=Cd,Hg] were first prepared by the reaction of metal nitrates with potassium thiocyanate and then solutions from two formed metal thiocyanates were mixed in 1 : 1 molar ratio.Fifteen bridged thiocyanate complexes were prepared from the reaction of Schiff base ligands with binuclear tetrathiocyanate complexes in 1 : 1 molar ratio . These complexes were characterized by elemental analysis, FT - IR , UV - visible ,mass spectroscopy ,atomic absorption ,thermogravimetric analysis, molar conductance and magnetic susceptibilities. The results were indicated that the found percentage of C ,H and N for the prepared complexes were closed to their theoretical values . Also IR spectra showed that stretching vibration of azomethine group in the complexes was shifted in comparison with ligands in addition to appearance of bands belong to bridged and terminal thiocyanates indicating the bonding of ligands with metals. Mass spectroscopy also proved the structure of complexes by displaying peaks of molecular ion and some basic fragments. UV - Visible and magnetic studies gave an idea about geometry and coordination number of these complexes through location of electronic transition and number of unpaired electrons in outer energy levels .Atomic absorption measurements explained that the reaction of th e ligand with the metal complexes was 1 : 1 molar ratio , also the percentage of the metals in the prepared complexes was in good agreement with the theoretical values . It was found that the molar conductance values of the complexes were low indicating that all prepared complexes have non electrolytic properties . Farthermore , some prepared complexes had a good thermal stability depending on some thermal parameters calculated bythermogravimetric carves .In addition , the biological activity of the prepared ligands and theircomplexes were studied by using two types of bacteria (S.aureus , E.coli)and fungi (A.niger , A.ftavus) . It was found that all compounds havesignificant antimicrobial activity . Cytotoxicity of these compounds wasevaluated . These compounds have not toxicity on the red blood cells in comparison with standard compounds such as sodium cyanide .The proposed chemical structures of the prepared complexes were suggested as following : AC1 AC2
