Colloid stability  221

        distances.  If this minimum is moderately deep  compared  with kT, it
        should  give  rise  to  a  loose,  easily  reversible  flocculation.  For  small
        particles  (a  <  c.  10~ 8  m)  the  secondary  minimum  is  never  deep
        enough  for this to happen  in those  cases where the potential  energy
        maximum   is  high  enough  to  prevent  coagulation  into  the  primary
        minimum.  If  the  particles  are  larger,  flocculation  in  the  secondary
        minimum  may  cause  observable  effects.
          Several  colloidal  systems  containing anisodimensional  particles,
        such  as  iron  oxide  and  tobacco  mosaic  virus  sols,  show  reversible































                                                          -50 kT








        Figure 8.3  The influence of electrolyte concentration, K, on the total potential energy
                                        7
                                                                 19
        of interaction of two spherical particles: a =  10 ~  m; T = 298 K; z =  1; A,,  = 2 x  10~  J;
                    19
        ^3 3 =  0.4  x  JO"  J;  €/e 0  =  78.5;  ifi d  = 50 mV = 2kT/e.  V R and V A calculated  using
        equations (8.7), (8.9)  and  (8.13)