Kinetic equations for reactions in concentrated aqueous acids based on the concept of "excess acidity"

Cox, Robin A.; Yates, Keith

doi:10.1139/v79-479

Cited by 83 publications

(123 citation statements)

References 11 publications

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“…For instance for benzamide, with r = 3 (the most likely value (17)) the plots are horizontal until about half-way and then deviate upward; with r = 1 they curve down before levelling out. In view of the consistent linearity found before with plots of this type (6)(7)(8) this can only mean that a gradual mechanism change is occurring at intermediate acidities.…”

Section: Methodssupporting

confidence: 70%

“…It is involved in some data well at low acidity, but is not easy to interpret mechanistically (26). Because of this situation we decided to apply the excess acidity method, which is capable of providing considerable mechanistic information (6)(7)(8), to this process.…”

Section: Introductionmentioning

confidence: 99%

“…[2] (6). For an A-1 reaction the equation L21 log kI$ -log (CSHt/(CS + CSH+)) = (m* -1) m*X + log aN, + log ko is the same except that the term log a~, is not present (6). The observed pseudo-first-order rate constant is k$, and CsH+ and Cs are concentrations of protonated and unprotonated substrates, respectively; the protonation correction term containing these is negligible for full protonation.…”

Section: Introductionmentioning

confidence: 99%

“…X is the excess acidity, and aNu is the activity of the nucleophile or base involved in the A-2 reaction, water or bisulfate ion in sulfuric acid (6-8,3 1). m * and m* are slope parameters, expressing the sensitivity of the substrate and transition state, respectively, to the changing acidity (6), and ko is the medium-independent second-order rate constant. Although the equivalent equations for predominantly unprotonated substrates have been used extensively (6-8), eq.…”

Section: Introductionmentioning

confidence: 99%

“…All the activation parameters obtained in this study, using eqs. [2] and [3], are valid at 25°C in the aqueous standard state (6)(7)(8).…”

Section: Introductionmentioning

confidence: 99%

See 4 more Smart Citations

The hydrolyses of benzamides, methylbenzimidatium ions, and lactams in aqueous sulfuric acid. The excess acidity method in the determination of reaction mechanisms

Cox¹,

Yates²

1981

Can. J. Chem.

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The excess acidity method has been applied to hydrolysis rate data for a number of benzamides, methylbenzimidatium ions, and lactams, obtained as a function of sulfuric acid concentration and temperature. All of the substrates studied except β-propiolactam (8) and methyl-2,6-dimethylbenzimidatium ion (7) were found to follow the AOT2 mechanism at all acidities. The excess acidity method provided considerable mechanistic detail; in dilute acid the transition state contains O-protonated (or methylated) substrate and three water molecules (large negative ΔS≠), but in more concentrated solutions a one-water-molecule mechanism takes over (smaller negative ΔS≠). In strong acid bisulfate ion acts as the nucleophile (positive ΔS≠). N-protonated intermediates are not involved for "normal" substrates, being observed in this work only for 8, which follows the AND1 pathway. Observed differences between benzamide and methylbenzimidatium ion (4) hydrolyses are due to their differing activity coefficient behaviour, the mechanism being the same for both. The hydrolysis of 7 involves a one-water-molecule SN2 displacement at the O-methyl group. Comparison with 7 shows that this displacement is not likely to occur under the reaction conditions for 4; however, for the N-methyl and N,N-dimethyl derivatives studied it is probably an important reaction pathway. A comprehensive mechanistic framework for amide hydrolyses in strong acid media is given.

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Section: Methodssupporting

confidence: 70%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

“…All the activation parameters obtained in this study, using eqs. [2] and [3], are valid at 25°C in the aqueous standard state (6)(7)(8).…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

The hydrolyses of benzamides, methylbenzimidatium ions, and lactams in aqueous sulfuric acid. The excess acidity method in the determination of reaction mechanisms

Cox¹,

Yates²

1981

Can. J. Chem.

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Rearrangements of Hydrazo, Azoxy and Azo Compounds: Kinetic, Product and Isotope Studies

Cox

Buncel

2009

Patai's Chemistry of Functional Groups

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Phosphine and Thiophene Cyclopalladated Complexes: Hydrolysis Reactions in Strong Acidic Media

Garcı́a

Álvaro

Ibeas

et al. 2010

Chemistry An Asian Journal

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The mechanisms for the hydrolysis of organopalladium complexes [Pd(CNN)R]BF(4) (R=P(OPh)(3), PPh(3), and SC(4)H(8)) were investigated at 25 °C by using UV/Vis absorbance measurements in 10 % v/v ethanol/water mixtures containing different sulphuric acid concentrations in the 1.3-11.7 M range. In all cases, a biphasic behavior was observed with rate constants k(1obs), which corresponds to the initial step of the hydrolysis reaction, and k(2obs), where k(1obs)>k(2obs). The plots of k(1obs) and k(2obs) versus sulfuric acid concentration suggest a change in the reaction mechanism. The change with respect to the k(1obs) value corresponds to 35 %, 2 %, and 99 % of the protonated complexes for R=PPh(3), P(OPh)(3), and SC(4)H(8), respectively. Regarding k(2obs), the change occurred in all cases at about 6.5 M H(2)SO(4) and matched up with the results reported for the hydrolysis of the 2-acetylpyridinephenylhydrazone (CNN) ligand. By using the excess acidity method, the mechanisms were elucidated by carefully looking at the variation of k(i),(obs) (i=1,2) versus cH+. The rate-determining constants, k(0,A-1), k(0,A-2), and k(0,A-SE2) were evaluated in all cases. The R=P(OPh)(3) complex was most reactive due to its π-acid character, which favors the rupture of the trans nitrogen-palladium bond in the A-2 mechanism and also that of the pyridine nitrogen-palladium bond in the A-1 mechanism. The organometallic bond exerts no effect on the relative basicity of the complexes, which are strongly reliant on the substituent.

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Kinetic equations for reactions in concentrated aqueous acids based on the concept of "excess acidity"

Cited by 83 publications

References 11 publications

The hydrolyses of benzamides, methylbenzimidatium ions, and lactams in aqueous sulfuric acid. The excess acidity method in the determination of reaction mechanisms

The hydrolyses of benzamides, methylbenzimidatium ions, and lactams in aqueous sulfuric acid. The excess acidity method in the determination of reaction mechanisms

Rearrangements of Hydrazo, Azoxy and Azo Compounds: Kinetic, Product and Isotope Studies

Phosphine and Thiophene Cyclopalladated Complexes: Hydrolysis Reactions in Strong Acidic Media

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