Page 186 - Introduction to Colloid and Surface Chemistry
P. 186
Charged interfaces 175
Ion adsorption
A net surface charge can be acquired by the unequal adsorption of
oppositely charged ions. Ion adsorption may involve positive or
negative surface excess concentrations.
Surfaces in contact with aqueous media are more often negatively
charged than positively charged. This is a consequence of the fact that
cations are usually more hydrated than anions and so have the greater
tendency to reside in the bulk aqueous medium; whereas the smaller,
less hydrated and more polarising anions have the greater tendency
to be specifically adsorbed.
Hydrocarbon oil droplets and even air bubbles suspended in water
and in most aqueous electrolyte solutions have negative electro-
phoretic mobilities (i.e. they migrate towards the anode under the
180
influence of an applied electric field) . This net negative charge is
explained in terms of negative adsorption of ions. The addition of
simple electrolytes, such as NaCl results in an increase in the surface
tension of water (see Figure 4.11) and in the interfacial tension
between hydrocarbon oil and water. This is interpreted via the Gibbs
equation (page 80-2) in terms of a negative surface excess ionic
concentration. The surface excess concentrations of hydrogen and
hydroxyl ions will also be negative. Presumably, cations move away
from the air bubble-water and oil-water interfaces more than
anions, leaving the kinetic units (which will include some aqueous
medium close to the interfaces) with net negative charges.
Preferential negative adsorption of hydrogen ions compared with
hydroxyl ions is reflected in the electrophoretic mobility-pH curve
for hydrocarbon oil droplets (see Figure 7.7). The magnitude of the
electrophoretic mobilities of inert particles such as hydrocarbon oil
8 2 1 1
droplets (c 0 to -6 x 1(T m s" V" ) is comparable with those of
2
simple ions (e.g. -7.8 x 10~ 8 m s" 1 V~ l for OT ions at infinite
dilution in aqueous solution at 25°C), which, in view of their
relatively large size, reflects a high charge number.
Surfaces which are already charged (e.g. by ionisation) usually
show a preferential tendency to adsorb counter-ions, especially those
with a high charge number. It is possible for counter-ion adsorption
to cause a reversal of charge.
If surfactant ions are present, their adsorption will usually
determine the surface charge.
