Page 23 - Introduction to Colloid and Surface Chemistry
P. 23
14 The colloidal state
Virtually all of the sulphur particles
are born within this short time period
Rapid relief of supersaturation
o"5
5 T
0_C Saturation concentration
0-5-
d 3
Time
Figure 1.4 Formation of an approximately monodispersed sulphur sol by the slow
reaction between Na 2S 2O 3 and HCI in dilute aqueous solution
complexes formed in the presence of excess silver or halide ions. In
each case the concentration of the material of the dispersed phase
slowly passes the saturation point and attains a degree of supersatura-
tion at which nucleation becomes appreciable. Since the generation
of dispersed phase material is slow, the appearance of nuclei and the
accompanying relief of supersaturation is restricted to a relatively
short period and few new nuclei are formed after this initial outburst.
The nuclei then grow uniformly by a diffusion-controlled process and
a sol of monodispersed particles is formed.
Various methods are also available for the preparation of mono-
20
19
dispersed hydrous metal oxide sols and silica sols ' 134 .
Monodispersed polystyrene sols are used as calibration standards
for electron microscopes, light scattering photometers, Coulter
counters, particle sieves, etc. Monodispersed silica is used for
antireflection lens coatings. Monodispersity (even at a modest level)
can usefully be exploited in photographic film, magnetic devices,
pharmaceutical preparations and catalysis.
Macromolecular colloids
Macromolecular chemistry covers a particularly wide field which
includes natural polymeric material, such as proteins, cellulose, gums
and natural rubber; industrial derivatives of natural polymers, such as
sodium carboxymethyl cellulose, rayon and vulcanised rubber; and
the purely synthetic polymers, such as polythene (polyethylene),
Teflon (polytetrafluoroethylene), polystyrene, Perspex (poly (methyl
