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Kinetic probe to study the structural behaviour of mixed aqueous - organic solvents. Effects of inorganic and organic salts on the kinetics and mechanism of intramolecular general base-catalysed methanolysis of ionized phenyl salicylate (1992)

Niyaz Khan, M. ; Audu, A. A.

Chichester : Wiley-Blackwell

Journal of Physical Organic Chemistry 5 (1992), S. 129-141

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ISSN: 0894-3230

Keywords: Organic Chemistry ; Physical Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology , Physics

Notes: The effects of inorganic and organic salts on the rates of methanolysis of ionized phenyl salicylate, PS-, were studied at 30°C in H2O-MeOH solvents. The observed pseudo-first-order rate constants, kobs, for methanolysis of PS- represent a non-linear incrrease with increase in methanol contents in mixed H2O-MeOH solvents. The observed data are explained in terms of the proposal that methanol molecules exist in monomeric, dimeric and in general polymeric forms in H2O-MeOH solvents. The rate constants, kobs, at alkanol [ROH (R = Me, HOCH2CH2)] contents of ca ≤ 55% (v/v), fit the relationship kobs = k [ROH]T/(1 + kA [ROH]), (1 + KA [ROH]), where k and KA represent the nucleophilic second-order rate constant for the reaction of ROH with PS- and the association constant for the dimerization of ROH, respectively, and [ROH]T is the total concentration of ROH. The rate constants, k, appear to be independent of total concentrations of inorganic salts [MX]T (M = Li, Na, K and X = OH, Cl), but the values of KA increase with increase in [MX]T and this increase varies in the order Li+ 〉 Na++ 〉 K+. The values of both k and KA show a decrease with increase in the total concentrations of organic salts, [R4MX]T (R = Et, Prn, Bun and X = Br, I). The effects of [MX]T and [R4MX]T on kobs versus content of ROH (%, v/v) profiles reveal the following inferences: (i) in the water-rich region of H2O-ROH solvents [at ca 〈 55% (v/v) ROH] the solvation shells of M+ and X- contain preferentially only water molecules whereas in the methanol-rich region [at ca 〉 55% (v/v) ROH] of solvents some cosolvent methanol molecules also enter into these solvation shells; (ii) the solvation shells of tetraalkylammonium ions, R4N+, contain some methanol molecules even in the water-rich region of the solvents; (iii) Li+ cause a methanol structure-making effect whereas Na+ and K+ ions show a methanol structurebreaking effect; and (iv) organic cations such as Et4N+, Prn4N+ and Bun4N+ reveal a methanol structure-breaking effect through an interaction mechanism different from that operating for Na+ and K+. Both k and KA show significant normal deuterium isotope effects in the reactions of MeOH and PS- which indicates the probable occurrence of proton transfer in the rate-determining step.

Additional Material: 8 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/poc.610050305

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Kinetic probe to study the structural behavior of the mixed aqueous-organic solvents. Salt effects on the kinetics and mechanism of intramolecular general-base-catalyzed ethanolysis of ionized phenyl salicylate (1990)

Khan, M. Niyaz ; Audu, A. A.

New York, NY : Wiley-Blackwell

International Journal of Chemical Kinetics 22 (1990), S. 37-57

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ISSN: 0538-8066

Keywords: Chemistry ; Physical Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: The reaction rates of ethanolysis of ionized phenyl salicylate, PS-, have been studied in the presence of different concentrations of various inorganic and organic salts in ethanol-water solvent of different compositions. The observed pseudo first-order rate constants,k1, reveal a nonlinear increase with increase of thecontent of ethanol until it becomes ca. 85%, v/v. The rate constants, k1, begin to decrease with increase of ethanol content beyond ca. 85%, v/v. The observed data obtained at ethanol contents of 〈ca. 55%, v/v, follow the relationships k1 = k[EtOH]T/(1 + K[EtOH]T ) where k and K represent the second-order rate constant for thereaction of PS- with monomeric ethanol, EtOH, and association constant for dimerization of monomers of ethanol, respectively, and [EtOH]T is the total concentration of ethanol. The calculated values of k and K obtained in the presence of 0.01 M tetraalkylammonium ions, R4N+, show ca. 15% and 40%, respectively, decrease with increase of the chain lengths of alkyl groups, R. The following conclusions have been derived from the observed data. (i) Lithium chloride causes ethanol structure-making effect while NaCl, KCl, and CsCl show ethanol structure-breaking effect. (ii) Tetraalkylammonium halide salts such as Me4NCl, Et4NI, andn-Bu4NI reveal ethanol structure-breaking effect due to the transfer of some water molecules from solvation shells of ethanol and R4N+ when favorable hydrophobic interaction between hydrophobic sites of ethanol and R4N+ results in. This effect is, however, partially off set by the direct interaction between monomeric ethanol and R4N+. Both inorganic and organic cations are preferentially solvated by only water molecules in EtOH-H2O solvents with EtOH contents of 〈ca. 55%, v/v. The effects of 0.01 M LiOH on k1 values obtained within the ethanol content range of 35% to 97%, v/v, seemed to be unaffected due to the presence of 0.01 M NaCl.

Additional Material: 6 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/kin.550220104

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