Difference between revisions of "Colloid Surfactants for Emulsion Stabilization"

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(Summary)
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== Summary ==
 
== Summary ==
Kim, Lee, Shum, and Weitz use solid particles in the place of surfactant molecules and qualitatively compare both methods of stabilizing emulsions.
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Kim, Lee, Shum, and Weitz use solid particles in the place of surfactant molecules and qualitatively compare both methods of stabilizing emulsions. Emulsions stabilized with particles are called Pickering emulsions.
  
The solid particles that the researchers fabricated look like two connected spheres of different radii (see figure 1). The reason for  
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The solid particles that the researchers fabricate look like two connected spheres of different radii (see figure 1). Surprisingly, these particles are not formed by connecting two pre-existing spheres. Rather, Kim ''et. al.'' heat crosslinked polystyrene spheres which have been "swollen" with styrene and a couple other chemicals. The heat causes an elastic stress on the spheres which causes the spheres to squeeze out some of the material inside them. The first sphere shrinks, and a new, attached sphere grows. This process is called the "seeded monomer swelling and polymerization technique."
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The reason for  
 
[[image: snowmanParticle.png|400px|thumb|left|Figure 1. Geometry of the fabricated particles. From figure 1 of [1].]]
 
[[image: snowmanParticle.png|400px|thumb|left|Figure 1. Geometry of the fabricated particles. From figure 1 of [1].]]
  

Revision as of 02:04, 28 October 2009

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. Emulsions stabilized with particles are called Pickering emulsions.

The solid particles that the researchers fabricate look like two connected spheres of different radii (see figure 1). Surprisingly, these particles are not formed by connecting two pre-existing spheres. Rather, Kim et. al. heat crosslinked polystyrene spheres which have been "swollen" with styrene and a couple other chemicals. The heat causes an elastic stress on the spheres which causes the spheres to squeeze out some of the material inside them. The first sphere shrinks, and a new, attached sphere grows. This process is called the "seeded monomer swelling and polymerization technique."

The reason for

Figure 1. 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

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