Page 106 - Introduction to Colloid and Surface Chemistry
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96 Liquid-gas and liquid-liquid interfaces
Substituting in the Dupre equation, the spreading coefficient can
be related to the work of adhesion and cohesion
5 = W ow - 2y OA = W ow ~ W 0ll (432)
i.e. spreading occurs when the oil adheres to the water more strongly
than it coheres to itself.
Impurities in the oil phase (e.g. oleic acid in hexadecane) can
reduce y 0w sufficiently to make 5 positive. Impurities in the aqueous
phase .normally reduce S, since -y WA is lowered more than y 0w by the
impurity, especially if y Ow is already low. Therefore, n-octane will
spread on a clean water surface but not on a contaminated surface.
The initial spreading coefficient does not consider the mutual
saturation of one liquid with another: for example, when benzene is
spread on water,
1
/mNn-f =72.8-(28.9 + 35.0) = +8.9
S init
but when the benzene and water have had time to become mutually
1
saturated, -y WA is reduced to 62.4 mN m~* and -y ow to 28.8 mN m" ,
so that
!
S fma ,/mNm = 62.4-(28.8+ 35.0) = -1.4
The final state of the interface is now just unfavaourable for
spreading. This causes the initial spreading to be stopped, and can
even result in the film retracting slightly to form very flat lenses, the
rest of the water surface being covered by a monolayer of benzene.
Similar considerations apply to the spreading of a liquid such as
«-hexanoI on water (Figure 4.17): '
1
/mNnT =72.8-(24.8 + 6.8) = +41.2
5 init
1
S final / inNm' = 28.5 - (24.7 + 6.8) = -3.0
Monomolecular films 54 57
Many insoluble substances, such as long-chain fatty acids and
alcohols, can (with the aid of suitable solvents) be spread on to a
water surface, and if space permits will form a surface film one
