Spectrometric study of solute–solvent interactions for the solvolysis of chloropentaamine cobalt(III) complex in binary aqueous mixtures

Younes, Ghassan; Zeitouni, Farah Samih; Amira, Mohamed F.

doi:10.1002/kin.20324

Cited by 6 publications

(5 citation statements)

References 35 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The dielectric constant values of different compositions are obtained from Akerlof data [24]. As shown in Figures 2 and 3, the plots were found to be non-linear in accordance with the general observations found in the aquation of a large number of other cobalt(III) complexes [25,26] in water-cosolvent mixtures, which led to a conclusion, that the contribution of the non-electrostatic part of solvent effect, overcomes the electrostatic component part. Also, this parameter measures macroscopic property, while specific solute-solvent interactions occur on a microscopic scale is completely neglected.…”

Section: Variation Of Ion-pair Coefficients (Kip) With Solvent Paramesupporting

confidence: 80%

Comparison of the leaving groups during the study of the aquation of halopentaammine cobalt(III) complex in tartarate at different percentage of tert-butanol

2018

View full text Add to dashboard Cite

The experimental kinetic study of aquation for both complexes bromopentaammine cobalt(III) and chloropentaammine cobalt(III) ions in the presence of tartarate solution in mixed solvent media of water with tert-butanol (10-50%, v:v) was examined spectrophotometrically at different temperatures (30-60 °C) by comparing the special effects of the leaving group of chloro and bromo on the rate constant of aquation. Comparison of kip (rate constant of ion-pairing) for both complexes and show the non-linear plots of log (kip) ion-pair rate constants against the reciprocal of the dielectric constant D. The thermodynamic analyses of the kinetic data for both complexes have been discussed in terms of solvent effect on the ion-pair aquation reactions. The obtained isokinetic temperatures of these systems indicate the existence of compensation effect arising from solute-solvent interaction. The excessive change of ΔHip* and ΔSip* with the mole fraction of the co-solvent can be recognized to the change of the physical properties of the solvent-water mixture with the solvent structure. Undersized changes in ΔGip* with the mole fraction of the co-solvent was found, representing a compensating effects between ΔHip* and ΔSip*.

show abstract

Section: Variation Of Ion-pair Coefficients (Kip) With Solvent Paramesupporting

confidence: 80%

Comparison of the leaving groups during the study of the aquation of halopentaammine cobalt(III) complex in tartarate at different percentage of tert-butanol

2018

View full text Add to dashboard Cite

show abstract

“…Also Log kip was plotted against reciprocal of the dielectric constant D at 25 o C, where the dielectric constant values of different compositions are obtained from Akerlof data [18]. As shown in Figure(3), the plot was found to be non linear in accordance with the general observations found in the aquation of a large number of other cobalt(III) complexes [19][20] in water-cosolvent mixtures, which led to a conclusion, that the contribution of the non electrostatic part of solvent effect, overcomes the electrostatic component part. Also, these parameter measures macroscopic properties, while specific solute-solvent interactions occur on a microscopic scale are completely neglected.…”

Section: Variation Of Ion-pair Coefficients (Kip) With Solvent Paramesupporting

confidence: 67%

Studies on ion-pairing effects of the kinetics of aquation of bromopentaammine cobalt(III) complex in malonate media

2011

View full text Add to dashboard Cite

“…The left-hand side of Eqn (3) plotted versus the mole fractions of dioxane and DMSO as shown in Figure 4, indicating negative values for all compositions investigated. These negative values can be compared with similar negative values obtained for the solvolyses of these complexes in mixtures of alcohols with water [16,17,24]. In all these cases, irrespective of whether the cosolvent, when added to water, increases or decreases the relative permittivity, or enhances or destroys structure in the solvent, it is found that the Co 3 þ cation in the transition state is more stable in the mixture than the Co 3 þ cation in the initial state.…”

Section: Application Of a Free Energy Cyclementioning

confidence: 66%

“…Good linear plots were obtained for log(rate constant) against the reciprocal of the absolute temperatures for the same composition of the cosolvents. It was found that the rate constant in water -dioxane mixtures is higher than that in water -DMSO mixtures; this trend can be attributed to the properties of the medium, such as the structure of the solvent, ionizing power, basicity and dielectric constant which greatly influence the solvolysis rate of the complex [16,17].…”

Section: Resultsmentioning

confidence: 90%

“…For the present complex, good straight lines were obtained from the plots of DH 6 ¼ against DS 6 ¼ for different solvent compositions in both of the binary aqueous systems as shown in Figure 3, where compensating changes in DH 6 ¼ and DS 6 ¼ occur [16,17]. From these plots, the isokinetic temperatures were estimated as 315 K and 314 K for dioxane and DMSO respectively, which are close to the experimental values.…”

Section: Variation Of Activated State Parameters With Solvent Composimentioning

confidence: 98%

See 1 more Smart Citation

Kinetic Studies of Solute-Solvent Interactions in the Solvolysis of Trans- [Co (4-Teri-Butylpyri Dine)₄C1₂)Clo₄ in Organic-Aqueous Mixtures

Younes

Jaber

2011

Progress in Reaction Kinetics and Mechanism

View full text Add to dashboard Cite

The kinetics of solvolysis of trans-[Co(L) 4 Cl 2 ]ClO 4 where (L ¼ 4-tert-butylpyridine) were followed spectrophotometrically in water -dioxane and waterdimethylsulfoxide media (0 -60% v=v) over the temperature range (40 -55 C). Non-linear plots were found for the logarithm of the rate constant of the first-order reaction versus the reciprocal of the relative permittivity, e r , of the mixed solvent. This behaviour can be attributed to the differential solvation of the initial and transition states of the complex. The enthalpies and entropies of activation showed compensating extrema with the mole fraction of solvent, leading to a small variation in the free energy of activation. By applying a free-energy cycle, it was found that the difference between the values of the free energy of transfer of the cations in the transition and initial states were negative, indicating that the cation in the transition state is more solvated than that in the initial state.

show abstract

Spectrometric study of solute–solvent interactions for the solvolysis of chloropentaamine cobalt(III) complex in binary aqueous mixtures

Cited by 6 publications

References 35 publications

Comparison of the leaving groups during the study of the aquation of halopentaammine cobalt(III) complex in tartarate at different percentage of tert-butanol

Comparison of the leaving groups during the study of the aquation of halopentaammine cobalt(III) complex in tartarate at different percentage of tert-butanol

Studies on ion-pairing effects of the kinetics of aquation of bromopentaammine cobalt(III) complex in malonate media

Kinetic Studies of Solute-Solvent Interactions in the Solvolysis of Trans- [Co (4-Teri-Butylpyri Dine)₄C1₂)Clo₄ in Organic-Aqueous Mixtures

Contact Info

Product

Resources

About

Spectrometric study of solute–solvent interactions for the solvolysis of chloropentaamine cobalt(III) complex in binary aqueous mixtures

Cited by 6 publications

References 35 publications

Comparison of the leaving groups during the study of the aquation of halopentaammine cobalt(III) complex in tartarate at different percentage of tert-butanol

Comparison of the leaving groups during the study of the aquation of halopentaammine cobalt(III) complex in tartarate at different percentage of tert-butanol

Studies on ion-pairing effects of the kinetics of aquation of bromopentaammine cobalt(III) complex in malonate media

Kinetic Studies of Solute-Solvent Interactions in the Solvolysis of Trans- [Co (4-Teri-Butylpyri Dine)4C12)Clo4 in Organic-Aqueous Mixtures

Contact Info

Product

Resources

About

Kinetic Studies of Solute-Solvent Interactions in the Solvolysis of Trans- [Co (4-Teri-Butylpyri Dine)₄C1₂)Clo₄ in Organic-Aqueous Mixtures