Universal Surfactant for Water, Oils, and CO2

A trichain anionic surfactant sodium 1,4-bis(neopentyloxy)-3-(neopentyloxycarbonyl)-1,4-dioxobutane-2-sulfonate (TC14) is shown to aggregate in three different types of solvent: water, heptane, and liquid CO2. Small-angle neutron scattering (SANS) has been used to characterize the surfactant aggrega...

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Veröffentlicht in:	Langmuir 2010-09, Vol.26 (17), p.13861-13866
Hauptverfasser:	Mohamed, Azmi, Trickett, Kieran, Chin, Swee Yee, Cummings, Stephen, Sagisaka, Masanobu, Hudson, Laura, Nave, Sandrine, Dyer, Robert, Rogers, Sarah E, Heenan, Richard K, Eastoe, Julian
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Sprache:	eng
Schlagworte:	Alkanesulfonates - chemistry Carbon Dioxide - chemistry Chemistry Colloidal state and disperse state Colloids: Surfactants and Self-Assembly, Dispersions, Emulsions, Foams Exact sciences and technology General and physical chemistry Micelles. Thin films Oils - chemistry Particle Size Surface physical chemistry Surface Properties Surface-Active Agents - chemistry Water - chemistry
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container_title	Langmuir
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creator	Mohamed, Azmi Trickett, Kieran Chin, Swee Yee Cummings, Stephen Sagisaka, Masanobu Hudson, Laura Nave, Sandrine Dyer, Robert Rogers, Sarah E Heenan, Richard K Eastoe, Julian
description	A trichain anionic surfactant sodium 1,4-bis(neopentyloxy)-3-(neopentyloxycarbonyl)-1,4-dioxobutane-2-sulfonate (TC14) is shown to aggregate in three different types of solvent: water, heptane, and liquid CO2. Small-angle neutron scattering (SANS) has been used to characterize the surfactant aggregates in water, heptane, and dense CO2. Surface tension measurements, and analyses, show that the addition of a third branched chain to the surfactant structural template is critical for sufficiently lowering the surface energy, tipping the balance between a CO2-incompatible surfactant (AOT) and CO2-philic compounds that will aggregate to form micelles in dense CO2 (TC14). These results highlight TC14 as one of the most adaptable and useful surfactants discovered to date, being compatible with a wide range of solvent types from high dielectric polar solvent water to alkanes with low dielectrics and even being active in the uncooperative and challenging solvent environment of liquid CO2.
doi_str_mv	10.1021/la102303q
format	Article
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Small-angle neutron scattering (SANS) has been used to characterize the surfactant aggregates in water, heptane, and dense CO2. Surface tension measurements, and analyses, show that the addition of a third branched chain to the surfactant structural template is critical for sufficiently lowering the surface energy, tipping the balance between a CO2-incompatible surfactant (AOT) and CO2-philic compounds that will aggregate to form micelles in dense CO2 (TC14). 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Small-angle neutron scattering (SANS) has been used to characterize the surfactant aggregates in water, heptane, and dense CO2. Surface tension measurements, and analyses, show that the addition of a third branched chain to the surfactant structural template is critical for sufficiently lowering the surface energy, tipping the balance between a CO2-incompatible surfactant (AOT) and CO2-philic compounds that will aggregate to form micelles in dense CO2 (TC14). 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subjects	Alkanesulfonates - chemistry Carbon Dioxide - chemistry Chemistry Colloidal state and disperse state Colloids: Surfactants and Self-Assembly, Dispersions, Emulsions, Foams Exact sciences and technology General and physical chemistry Micelles. Thin films Oils - chemistry Particle Size Surface physical chemistry Surface Properties Surface-Active Agents - chemistry Water - chemistry
title	Universal Surfactant for Water, Oils, and CO2
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