POTENTIOMETRIC AND THERMODYNAMIC STUDIES OF 5-PHENYL AZORHODANINE DERIVATIVES AND THEIR METAL COMPLEXES | ||||
ERJ. Engineering Research Journal | ||||
Article 15, Volume 30, Issue 2, April 2007, Page 259-266 PDF (499.08 K) | ||||
Document Type: Original Article | ||||
DOI: 10.21608/erjm.2007.70062 | ||||
View on SCiNiTO | ||||
Authors | ||||
M. F. El-Sherbiny1; N. E. Salam2 | ||||
1Basic Engineering Science Departmen Faculty of Engineering, Minoujya University, Shebin El-Kom, Egyp | ||||
2Mathematical and Physical Science Dept., Faculty of Engineering, Mansoura University, Mansoura, Egypt | ||||
Abstract | ||||
A series of 5-phenylazo-2-thioxo-4-thiazolidinone derivatives (L1-L5) have been prepared and characterized by elemental analysis, and IR spectra. Rhodanine and its derivatives are used as an inhibition of mycobacterium tuberculosis and in medicinal preparations . Azo compounds based on rhodanine play a central role as chelating agents for a large number of metal ions, as they form a stable six-membered ring after complexation with the metal ion and can also be used as analytical reagents. Proton-ligand dissociation constants of (L1-L5) and their metal-ligand stability constants of their complexes with (MI?, coZ*, Ni2+, CU~+,C~~+, La3+, FIT, and zr4+) metal ions have been determined potentiornettically in 0.1M KC1 and 40% (vlv) ethanol-water mixture. The influence of substituents on the dissociation and stability constants was examined on the basis of the electron repelling property of the substituent. The order of the stability constants of the formed complexes was found to be ~n'+< co2+< ~i'*< CU~"<C~~+< La3+< ~f3+< zr4+. The effect of temperature was studied and the corresponding thermodynamic parameters (AG, MI and AS) were derived and discussed. The dissociation process is nonspontaneous, endothermic and entropically unfavourable. The formation of the metal complexes has been found to be spontaneous, endothermic and entropically favourable. | ||||
Keywords | ||||
5-Phenylazorhodanines; Potentiometry; Complexation; Thermodynamic | ||||
Statistics Article View: 76 PDF Download: 133 |
||||