Lori A. Torry scite author profile

The kinetics of hydrolysis in supercritical water of a series of substituted anisoles to methanol and the corresponding substituted phenol probed the coupling of solvent and substituent effects. For supercritical water concentrations [H20] 5 3 mol/L, the substituent effects exhibited compelling correlation according to the classic Hammett formalism. For [H20] > 5 mol/L, however, the Hammett correlation had an internal minimum at cr = 0, indicative of rate acceleration by both electronwithdrawing and electron-donating substituents. The solvent and substituent effects were thus defined to be "decoupled" for [H20] 5 3 mol/L, where the dielectric constant t I 1.28. The hydrolysisHammett reaction constant increased with decreasing water density. The reaction constant was also of opposite sign to reported values for pyrolysis of substituted benzyl phenyl ethers, suggesting that the practical significance of the present work is the ability to design a substituent-specific solvent effect for selective hydrolysis or pyrolysis.

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Hydrolysis in supercritical water: Solvent effects as a probe of the reaction mechanism

Klein

Torry

et al. 1990

The Journal of Supercritical Fluids

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The effect of salts on hydrolysis in supercritical and near-critical water: Reactivity and availability

Torry

Kaminsky

Klein

et al. 1992

The Journal of Supercritical Fluids

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Kinetics of the formation of hydroxyacetaldehyde-sulfur(IV) adducts at low pH

Olson

Torry

Hoffmann

1988

Environ. Sci. Technol.

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Lori A. Torry

Decoupling substituent and solvent effects during hydrolysis of substituted anisoles in supercritical water

Hydrolysis in supercritical water: Solvent effects as a probe of the reaction mechanism

The effect of salts on hydrolysis in supercritical and near-critical water: Reactivity and availability

Kinetics of the formation of hydroxyacetaldehyde-sulfur(IV) adducts at low pH

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