The anesthetic potency of <i>n</i>-alcohols. A model spectroscopic study in inverted micelles

Menassa, Pierre; Lussier, Thérèse; Sándorfy, C.

doi:10.1139/v86-102

Cited by 8 publications

(4 citation statements)

References 1 publication

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“…It is known that AOT forms reversed micelles in refer to the maximum absorption wavelength of the free and bound compound, respectively. these solvents (46,47). The water content that these micelles accept is near 11.…”

Section: Studies In Aot-carbon Tetrachloride Reverse Micellesmentioning

confidence: 98%

Binding of Nitrodiphenylamines to Reverse Micelles of AOT inn-Hexane and Carbon Tetrachloride: Solvent and Substituent Effects

Correa

Durantini

Silber

1998

Journal of Colloid and Interface Science

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Section: Studies In Aot-carbon Tetrachloride Reverse Micellesmentioning

confidence: 98%

Binding of Nitrodiphenylamines to Reverse Micelles of AOT inn-Hexane and Carbon Tetrachloride: Solvent and Substituent Effects

Correa

Durantini

Silber

1998

Journal of Colloid and Interface Science

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“…The incorporation of solutes to reverse micellar aggregates is a matter of current interest . The partition of different solutes between the micellar aggregates and the external solvent has been determined for a variety of solutes employing different experimental techniques. − Most of these studies have been performed in sodium 1,4-bis(2-ethylhexyl) sulfosuccinate (AOT) reverse micellar systems, although some data have been also obtained employing other surfactants. In principle, it can be expected that the distribution of a solute, measured at a given temperature and pressure, will be determined by the type of surfactant employed, the [internal solvent]/[surfactant] mole ratio ( W ), the properties of the internal polar solvent, and the characteristics of the external solvent.…”

Section: Introductionmentioning

confidence: 99%

“…In most of the previously reported studies, the partitioning of a variety of solutes as a function of W has been determined in AOT−water−hydrocarbon systems. There are considerably fewer studies in which different surfactants 1,13-15,21 and/or different internal polar solvents were considered. ,− , With regard to the effect of the external solvent upon the distribution of solutes, the studies are even more scarce, ,− and to the best of our knowledge, there are not systematic studies comprising solvents of different characteristics. In the present work, we attempt to fill this gap by measuring the partitioning of a solute (1-pyrenemethanol) between AOT−water reverse micelles and the external solvent employing solvents of different characteristics.…”

Section: Introductionmentioning

confidence: 99%

Solubilization in AOT−Water Reverse Micelles. Effect of the External Solvent

et al. 2002

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The partition of 1-pyrenemethanol (PyM) between the external medium and AOT/water reverse micelles formed in several organic solvents has been measured and compared with its partition between bulk solvents. The organic solvents employed were n-heptane, cyclohexane, isooctane, dodecane, benzene, chlorobenzene, toluene, and tetrachloroethylene. The partition of PyM in AOT/water/nonpolar solvent reverse micelles is dominated by the free energy of the probe in the external solvent. To evaluate the stability of the probe in micelles dispersed in different solvents, the micellar data were referred to a common (water) solvent. A weakly positive correlation was obtained for the partition of the probe between the different micelles and water. Furthermore, the polarity sensed by PyM is higher in AOT/alkane/water than in AOT/aromatic solvent/water reverse micelles. These results can be explained in terms of two driving forces whose relative importance is determined by the characteristics of the solute and the external solvent. One of them, solvation of the surfactant head by the polar group of PyM, will be disfavored by polar solvents. The second one, interaction of the aromatic part of the micelle associated PyM molecules with the external solvent, would be determined by the solvent/probe affinity, measured by the solvent/ water partition constant.

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“…Although the carbon number index has been in existence [111, anesthetic potency [12], and carcinogenic behavior [13] among others. A plot of nC against boiling point for normal alkane species is shown in Figure 3.…”

Section: Smentioning

confidence: 99%

The modeling of chemical phenomena using topological indices

Rouvray

1987

J Comput Chem

106

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A class of graph invariants known today as topological indices are being increasingly realized by chemists and others to be powerful tools in the description of chemical phenomena. Topological indices generally characterize both the size and shape of chemical species; in recent years a number of such indices have been put forward that sensitively reflect the amount of branching present in molecules. Chemists are thus able to model accurately the chemical behavior of an extensive range of chemical substances in all three thermodynamic states. In discussing the manifold applications of topological indices to the description of physicochemical properties, we present a survey of the progress to date in this area and point out some of the advantages and drawbacks of using topological indices.

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The anesthetic potency of n-alcohols. A model spectroscopic study in inverted micelles

Cited by 8 publications

References 1 publication

Binding of Nitrodiphenylamines to Reverse Micelles of AOT inn-Hexane and Carbon Tetrachloride: Solvent and Substituent Effects

Binding of Nitrodiphenylamines to Reverse Micelles of AOT inn-Hexane and Carbon Tetrachloride: Solvent and Substituent Effects

Solubilization in AOT−Water Reverse Micelles. Effect of the External Solvent

The modeling of chemical phenomena using topological indices

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