Cyclodextrin-modified capillary electrophoresis has been developed for
separation and analysis of benzene and its derivatives. The procedure
used a mixture of negatively charged sulfobutyl ether-beta-cyclodextr
in (SB beta CD) and neutral hydroxypropyl-beta-cyclodextrin (HP beta C
D) to effect differential distribution (partitioning) of the aromatic
hydrocarbons between the buffer and CD phases. In 80 mM phosphate buff
er, containing 15 mM SB beta CD and 5 mM HP beta CD, benzene, toluene,
ethyl benzene and three xylene isomers (BTEXs) were well resolved wit
h a number of theoretical plates well above 100 000, for 50 cm of effe
ctive length. Some halogenated benzenes were also observed to separate
well from the BTEX components to indicate their suitability as an int
ernal standard for BTEX analyses. Equilibrium complexation models were
used for investigating the effect of the cyclodextrin(s) at different
concentrations and temperature on the electrophoretic mobility.