Surfactant free microemulsions: possible applications for ...
Reaction at the Interfaces4 2009 - Aalborg...
Transcript of Reaction at the Interfaces4 2009 - Aalborg...
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Lecture 4
Microemulsions and Foams
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Evolution of macroemulsions
• we expect that from the thermodynamics prospective the emulsions will eventually coalesce
• this is delayed by – reducing surface tension (surfactants)– repulsive forces– kinetics
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Evolution of macroemulsions
• Kinetics of demulsification
forming loose clusters without loosing identity of drops
separation of drops by gravity
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Evolution of macroemulsions• Kinetics of demulsification
– Diffusion limited encounter of droplets (Smoluchowski)
2 2 28 486 3
B Bk TR k Tdc DRc c cdt R
πππη η
−= − = = −
2 43
Bf f
k Tdc k c kdt η
= − =rate of flocculation, depends only on T and viscosity
– If a barrier E* for coalescence exists:
*2
** *
0
exp
1 1 , exp
fB
f f fB
dc Ek cdt k T
Ek t k kc c k T
⎛ ⎞= − −⎜ ⎟
⎝ ⎠⎛ ⎞
= + = −⎜ ⎟⎝ ⎠
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Evolution of macroemulsions• Stages of droplet coalescence
stability of lamella depends on the repulsion forces between the surfactants
formation of bare spots depends of surfactant density
area and curvature of the surfactant film changes
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Application of surfactants• Wetting: contact angle is reduced.• Detergency:
– detergent: mixture of surfactants with other additives for effective cleansing (builders, brighteners and bleaches, electrolyte filler)
– cleansing efficiency grows with the concentration up to cmc
• Water repulsion– hydrophilic surface can be made hydrophobic
• Emulsification• Froth flotation in ore treatment:
– particles with hydrophobic surface stick to bubbles and are carried upwards when foam is formed (lead and copper sulfide ores, oxides, coal etc.)
• Oil recovery• Membrane disruption absorption
on the interface
emulsifying soil
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Microemulsions• Microemulsions (discovered in 1950s) are
– thermodynamically stable;– formed spontaneously– react reversibly on the change in temperature and
composition– consist of submicron size droplets
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Microemulsions• The radius of the droplet (in case of complete coverage by a
surfactant)
3
2
43
4
d
s s
V n R
V n R L
φ π
φ π
=
=
dispersed phase:
surfactant:
3 s d
s
LR φφ
=
volume fraction
Rc - core radius –radius of “neutral surface”
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Elastic properties of surfactant films• Laplace pressure is relatively small due to small surface tension• Gibbs free energy of a curved surface:
( )21 2 0 1 2
12surface
G k C C C kC C dA⎡ ⎤= + − +⎢ ⎥⎣ ⎦∫
principal curvatures, 1/R
spontaneous curvature
bending rigiditysaddle splay module
( )1 2 0 2C C kC k k= = +
Minimum in Gibbs free energy corresponds to “equilibrium” curvature
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Microemulsions• emulsion evolution with temperature
Phase diagram of 50:50 water-octane mixture with C12E5 surfactant
decrease in spontaneous curvature
PIT
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Microemulsion applications
• delivery of water insoluble vitamins and medicineExample: AquaNova GmbH produces 30nm size micelle system suitable e.g. for delivery of vitamin E and vitamin A.Micelles are thermally, mechanically and pH stable
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Emulsion polymerization• monomer is prepared
as emulsion in water stabilized by surfactants
• initiator is dissolved in water
• polymerization starts in the aqueous phase
* ** *
... * ... *
... * ... * ... ...
I M MM M MM
MM M MMM
MM MMM MMM
+ ⎯⎯→
+ ⎯⎯→+ ⎯⎯→
+ ⎯⎯→
initial polymerization in aqueous phase
oligomerssolubilized in the micelles
termination
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Films and Foams
• when a foam thickness decreases due to liquid drainage it forms black films: common black film (liquid core) and Newton black film (no liquid core)
Structure of a foam layer:
Foam layer has a surface tension, therefore foam film tries to minimize the area:
Laplace equation is applicable as well:
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Films and Foams
• Foam formation (by bubbling)
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Foams
• Wet foam: bubbles are spherical separated by thick liquid films
• Dry foam:mostly gas separated by thin lamellas. Individual cells are polyhedra. – three flat sides of
poplyhedra meet at an angle of 120º.
– configuration of 4 or more sides connecting at one line is unstable
– at all corners the 4 edges meet in a tetrahedral arrangement
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Films and Foams
• the Plateau border– as the curvature radius is smaller at the triple point, the pressure will be
lower and the liquid will flow there dirupting the foam– foam can be stabilized by repulsive pressure between the adsorbed
layers: disjoining pressure
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Films and Foams
• Permeability to gases
monolayer permeation: m mJ k c= ∆
diffusion through the solution: b
b
DHJ cz
= ∆
1 1b
m m
zJ ck DH k
⎛ ⎞+ + = ∆⎜ ⎟
⎝ ⎠
ik
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Measuring pressure in foam: Thin Film Balance
• Pressure inside the liquid film:
2g r
C
P P ghrγ ρΠ = − + −
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Films and Foams
• Tears of wine
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Films and Foams
• The Marangoni effect
buoyancy-driven convection presence of surfactant is impeding convection
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Aerosols
• Formation:– dispersion method– aggregation methods
monodisperse size distribution can be created by controlled nucleation
• Precipitation, e.g. electrostatic