8  The colloidal state


         Flexibility

        Thread-like high-polymer  molecules show considerable flexibility due
        to  rotation  about  carbon-carbon  and other  bonds.  In solution,  the
        shape  of  these  molecules  alters  continuously under  the  influence  of
         thermal  motion  and  a  rigid  rod  model  is  therefore  unsuitable.  A
         better  theoretical  treatment  is to  consider  the  polymer molecules as
         random  coils,  but  even  this  model  is  not  completely  accurate.
         Rotation about bonds does not permit complete flexibility, and steric
         and  excluded  volume effects  also  oppose  the  formation  of  a  truly
        random  configuration,  so  that,  in  these  respects,  dissolved  linear
        polymer molecules will tend to be more extended than random coils.
        The  relative  magnitudes of  polymer-polymer  and  polymer-solvent
        forces  must  also  be  taken  into  account.  If  the  segments  of  the
        polymer  chain  tend  to  stick  to  one  another,  then  a  tighter than
        random coil,  and possibly precipitation,  will result; whereas a  looser
        coil  results  when the  polymer  segments tend  to  avoid one  another
        because  of strong solvation and/or electrical repulsion.

        Solvation

        Colloidal  particles are  usually solvated, often to  the extent  of about
        one molecular layer, and this tightly bound solvent must be treated as
        a part  of the  particle.
          Sometimes much greater amounts of solvent can be immobilised by
        mechanical entrapment  within particle  aggregates.  This occurs when
        voluminous flocculent hydroxide precipitates are formed. In solutions
        of  long  thread-like  molecules  the  polymer  chains  may  cross-link,
        chemically  or  physically, and/or  become  mechanically entangled  to
        such  an  extent  that  a  continuous  three-dimensional  network  is
        formed.  If  all  of  the  solvent  becomes  mechanically trapped  and
        immobilised  within this network,  the  system as  a  whole takes on  a
        solid  appearance and is called  a gel.

        Polydispersity and the averages

        The  terms  relative  molecular mass  and  particle size  can  only have
        well-defined  meanings  when  the  system  under  consideration  is
        monodispersed  -  i.e.  when the  molecules or  particles are all alike.