Investigation on Conductance Behavior of Water/Dioctyl Sulfosuccinate Sodium Salt/Alkanol/Toluene Reverse Microemulsions

The conductivity (σ) measurement was carried out on water/dioctyl sulfosuccinate sodium salt (DOSS)/heptanol (decanol)/toluene reverse microemulsions. Addition of toluene was distinctly observed to inhibit the conductance percolation of water/DOSS/decanol/toluene systems. The effect of additives (so...

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Bibliographic Details
Published in:Journal of surfactants and detergents 2011-07, Vol.14 (3), p.455-462
Main Authors: Liu, Jie-xiang, Zhang, Hai-jiao, Zhang, Xiao-guang, Han, En-shan
Format: Article
Language:English
Subjects:
Additives
Alkanol
Aquatic Pollution
Aqueous solutions
Chemistry
Chemistry and Materials Science
Dioctyl sulfosuccinate sodium salt
Fourier transforms
Industrial Chemistry/Chemical Engineering
NMR
Nuclear magnetic resonance
Original Article
Percolation
Physical Chemistry
Polymer Sciences
Spectrum analysis
Studies
Surfaces and Interfaces
Thin Films
Toluene
Waste Water Technology
Water Management
Water Pollution Control
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Summary:The conductivity (σ) measurement was carried out on water/dioctyl sulfosuccinate sodium salt (DOSS)/heptanol (decanol)/toluene reverse microemulsions. Addition of toluene was distinctly observed to inhibit the conductance percolation of water/DOSS/decanol/toluene systems. The effect of additives (sodium chloride, sodium salicylate and sodium cholate) with various concentrations on the conductivity behavior of water/DOSS/heptanol (decanol)/toluene systems was also investigated and discussed. The conductivity of a water/DOSS/heptanol/toluene system was almost unchanged in the concentration ranges of sodium chloride and sodium salicylate studied, while it decreased with the increase in the sodium cholate concentration. The conductance of the water/DOSS/decanol/toluene system increased with increasing of sodium cholate and sodium salicylate concentrations, and it changed little with the sodium chloride concentration. The lnσ value exhibited a linear correlation with temperature in the range of 5–40 °C. No percolation threshold induced by temperature was detected either in the absence or in the presence of additives. Furthermore, the activation energy for conductivity was estimated and discussed according to the Arrhenius type equation. The present study would provide useful information for selecting a suitable template for nanometer materials preparation.
ISSN:1097-3958
1558-9293
DOI:10.1007/s11743-011-1244-9