SYNTHESIS, CHARACTERIZATION AND REVERSIBLE BINDING OF DIOXYGEN AND CARBON-MONOXIDE IN RUTHENIUM(III) SCHIFF-BASE COMPLEXES - EFFECT OF EQUATORIAL SUBSTITUTION ON THE O2 AND CO AFFINITIES

MMT Khan; Z A Shaikh; R I Kureshy; A B Boricha

doi:10.1016/S0277-5387(00)83265-9

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SYNTHESIS, CHARACTERIZATION AND REVERSIBLE BINDING OF DIOXYGEN AND CARBON-MONOXIDE IN RUTHENIUM(III) SCHIFF-BASE COMPLEXES - EFFECT OF EQUATORIAL SUBSTITUTION ON THE O2 AND CO AFFINITIES

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SYNTHESIS, CHARACTERIZATION AND REVERSIBLE BINDING OF DIOXYGEN AND CARBON-MONOXIDE IN RUTHENIUM(III) SCHIFF-BASE COMPLEXES - EFFECT OF EQUATORIAL SUBSTITUTION ON THE O2 AND CO AFFINITIES

MMT Khan, Z A Shaikh, R I Kureshy and A B Boricha

Polyhedron, Vol.11(1), pp.91-100

01/01/1992

DOI: https://doi.org/10.1016/S0277-5387(00)83265-9

Abstract

Chemistry

Chemistry, Inorganic & Nuclear

Crystallography

Physical Sciences

Science & Technology

Synthesis of a series of ruthenium(III) Schiff-base complexes of the type K[RuLX2] (where L = dibasic Schiff bases derived from methoxy, chloro substituted salicylaldehyde with o-phenylenediamine, propylenediamine and ethylenediamine, X = chloride) have been accomplished. The complexes were characterized by physicochemical methods. The formation of Ru(IV) superoxo complexes was confirmed electrochemically and by IR spectroscopy. The reversible binding of oxygen and carbon monoxide to these complexes were carried out in DMF at 10, 25 and 40-degrees-C. The substituents on salicylaldehyde increase the value of equilibrium constants K(O2) and K(CO) for the oxygenation and carbonylation reactions. The thermodynamic parameters-DELTA-H0, DELTA-G0 and DELTA-S0 for oxygenation and carbonylation were evaluated.

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Title: SYNTHESIS, CHARACTERIZATION AND REVERSIBLE BINDING OF DIOXYGEN AND CARBON-MONOXIDE IN RUTHENIUM(III) SCHIFF-BASE COMPLEXES - EFFECT OF EQUATORIAL SUBSTITUTION ON THE O2 AND CO AFFINITIES
Creators - without role: MMT Khan
Z A Shaikh - Central Salt and Marine Chemicals Research Institute
R I Kureshy - Central Salt and Marine Chemicals Research Institute
A B Boricha - Central Salt and Marine Chemicals Research Institute
Publication Details: Polyhedron, Vol.11(1), pp.91-100
Publisher: Elsevier
Number of pages: 10
Identifiers: 9922769308331
Academic Unit: King Saud University
Language: English
Resource Type: Journal article