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Physics and Chemistry of Liquids
An International Journal
Volume 45, 2007 - Issue 6
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Original Articles

Spectrophotometric studies of the formation of charge transfer complex of iron(III) with N,N′-bis(2-pyridylmethylidene)-1,2-diiminoethane di-Schiff base ligand in methanol

H. Reffas Faculty of sciences, Laboratory of the Chemistry and Electrochemistry of the Organometallic Complexes, Department of Chemistry, University of the Sciences and Technology of Oran (U.S.T.O.MB), BP-1505 Oran El-M’naouer, AlgeriaCorrespondence[email protected]
,
T. Benabdallah Faculty of sciences, Laboratory of the Chemistry and Electrochemistry of the Organometallic Complexes, Department of Chemistry, University of the Sciences and Technology of Oran (U.S.T.O.MB), BP-1505 Oran El-M’naouer, Algeria
,
A. H. Al-Taiar Faculty of sciences, Laboratory of the Chemistry and Electrochemistry of the Organometallic Complexes, Department of Chemistry, University of the Sciences and Technology of Oran (U.S.T.O.MB), BP-1505 Oran El-M’naouer, Algeria
&
M. Hadj Youcef Faculty of sciences, Laboratory of the Chemistry and Electrochemistry of the Organometallic Complexes, Department of Chemistry, University of the Sciences and Technology of Oran (U.S.T.O.MB), BP-1505 Oran El-M’naouer, Algeria
Pages 641-648 | Received 14 Sep 2006, Accepted 25 Nov 2006, Published online: 05 Oct 2007
 
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Abstract

The complex formation reaction between N,N′-bis(2-pyridylmethylidene)-1,2-diiminoethane (BPIE) di-Schiff base ligand as an electron donor and iron(III) chloride as an electron acceptor have been studied spectrophometrically in methanol at 28°C. The values of equilibrium constants, K and molar absorptivities, ε were obtained from the Benesi–Hildebrand, Scott and Foster–Hammick–Wardley equations. The results indicate the formation of 1 : 1 charge transfer complex. The absorption band energy of the complex, E CT, the ionization potential of the BPIE Schiff base ligand, I D, and the Gibbs energy changes of the above reaction, ΔG 0, were calculated. Finally, the kinetics of the complex formation reaction were studied and was found to be second-order in each reactant. The values of the rate constants of the forward and reverse reactions k 1 and k −1 were determined.

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