2008
DOI: 10.1002/anie.200705362
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Nanoemulsions Induced by Compressed Gases

Abstract: Pressure makes the difference! Compressed gases, such as CO2, ethylene, ethane, and propane, can induce the formation of nanoemulsions with special characteristics. The application of CO2‐induced nanoemulsions in the preparation of cross‐linked porous polystyrene materials and the ability of CO2 to stabilize emulsions for enhanced oil recovery are studied. A possible mechanism for the formation of the nanoemulsions is discussed (see picture).

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Cited by 55 publications
(61 citation statements)
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“…It is generally assumed that the smallest droplets are obtained in the transparent region, although this effect has yet to be conclusively demonstrated. Similar results have been found using gases other than CO 2 (ethylene, ethane, and propane), 36 and the effect of CO 2 is thus not related to an induced reduction in pH of the aqueous phase.…”
Section: Introductionsupporting
confidence: 82%
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“…It is generally assumed that the smallest droplets are obtained in the transparent region, although this effect has yet to be conclusively demonstrated. Similar results have been found using gases other than CO 2 (ethylene, ethane, and propane), 36 and the effect of CO 2 is thus not related to an induced reduction in pH of the aqueous phase.…”
Section: Introductionsupporting
confidence: 82%
“…That is, the droplet size of the initial emulsion becomes smaller due to the presence of CO 2 , enabling monomer droplet nucleation to be a dominant mechanism consistent with previous reports. 36,42 However, the droplet size appears not to be sufficiently small for exclusive droplet nucleation to occur. Therefore, droplets and micellar/ homogeneous nucleation co-exist in the system at P T , i.e.…”
Section: Figmentioning
confidence: 99%
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“…The resultant white solid was filtered, dried at 50°C and finally, calcined at 600°C in air for 8 h to remove the surfactant. It has to be mentioned that higher density of CO 2 was needed to achive the best synthesis condition because larger density of CO 2 might raise the chemical association between CO 2 and the water molecules concentrated in the head group of the surfactant to form emulsion, stabilized by the surfactant [38,39]. Therefore, CO 2 pressure was varied between 7 and 18 MPa to obtain spherical silica structure.…”
Section: Synthesis Methodsmentioning
confidence: 99%
“…In the present system, the synthesis gel exposed to CO 2 contains water, cationic surfactant CTAB and silica source TEOS. Now, it is possible to generate compressed gas-induced emulsion by CO 2 and water in the presence of surfactant, which will play an important role to stabilize the emulsion [38,54]. CTAB is a polar molecule and having very low solubility in CO 2 .…”
Section: Probable Mechanism Of Porous Silica Sphere Formationmentioning
confidence: 99%