108  Liquid-gas and liquid-liquid  interfaces

          Liquid-expanded films obey  the  equation of state,

                        A 0)  = kT                             (4.36)

        which resembles  the van der Waals equation. The accepted  theory of
        the  liquid-expanded  state,  suggested  by  Langmuir,  is  that  the
        monolayer  behaves as a duplex film in which the head groups are in a
        state of two-dimensional  kinetic agitation  while  the  attractive forces
        between  the  hydrocarbon  chains keep  the film coherent.

        Factors influencing the physical state of monomolecular films

        As  remarked  previously, the  physical state of a monolayer  depends
        on the lateral  cohesive  forces between the constituent  molecules. By
        a suitable choice of chain length and temperature, straight-chain fatty
        acids  and  alcohols,  etc.,  can  be  made  to  exhibit  the  various
        monolayer states,  one CH 2 group being equivalent to a temperature
        change of c. 5-8  K.
          Lateral  cohesion  also depends  on the geometry and orientation of
        the  film  molecules,  so  that  the  following  factors  will  favour  the
        formation  of  an  expanded  film:

        1.  Bulky  head  groups,  which  prevent  efficient  packing and,  hence,
           maximum  cohesion  between  the  hydrocarbon  chains.
        2.  More than one polar group -  e.g.  unsaturated  fatty acids, hydroxy
           acids.  A  film  pressure  is  required  to  overcome  the  attraction
           between the second  polar group and the aqueous substrate  before
           the  molecules  can be orientated vertically.
        3.  More  than  one  hydrocarbon  chain orientated  in different  directions
           from  the polar  part  of the molecule -  e.g.  esters,  glycerides.
        4.  Bent  hydrocarbon  chains  -  e.g.  brassidic  acid  (trans-
           CH 3(CH 2) 7CH=CH(CH 2)iiCOOH), which  has a straight hydro-
           carbon  chain,  gives  a  condensed  film,  whereas  erucic  acid (cis-
           CH 3(CH2)7CH=CH(CH 2)iiCOOH), which has a bent hydrocarbon
           chain,  gives a very expanded flim.
        5.  Branched  hydrocarbon chains.

          The nature of the substrate,  particularly pH,  is important when the
        monolayer  is ionisable.  When spread  on alkaline substrates,  because
        of  the  ionisation  and  consequent  repulsion  between  the  carboxyl