Difference between revisions of "Colloid Surfactants for Emulsion Stabilization"

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(Summary)
(Summary)
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The solid particles that the researchers fabricated look like two connected spheres of different radii.
 
The solid particles that the researchers fabricated look like two connected spheres of different radii.
[[image: snowmanParticle.png|text here]]
+
[[image: snowmanParticle.png|400px|thumb|left|Geometry of the fabricated particles. From figure 1 of [1].]]
  
 
<math>P_{packing}=\frac{\nu}{a_0l_c}</math>
 
<math>P_{packing}=\frac{\nu}{a_0l_c}</math>

Revision as of 01:53, 28 October 2009

Under Construction

Overview

  • [1] Kim, J., Lee, D., Shum, H., & Weitz, D. Adv. Mater. 20, 3239-3243 (2008).

Summary

Kim, Lee, Shum, and Weitz use solid particles in the place of surfactant molecules and qualitatively compare both methods of stabilizing emulsions.

The solid particles that the researchers fabricated look like two connected spheres of different radii.

Geometry of the fabricated particles. From figure 1 of [1].

<math>P_{packing}=\frac{\nu}{a_0l_c}</math> -packing parameter tells you what shape micelles form and oil in water or water in oil structures -vary amphiphobicity and geometry

Soft Matter Details