Ap. Mckeown et al., An evaluation of unbonded silica stationary phases for the separation of basic analytes using capillary electrochromatography, CHROMATOGR, 52(11-12), 2000, pp. 777-786
In this work, the use of three Hypersil unbonded silica phases of different
purity with simple aqueous-organic mobile phase eluents has achieved excel
lent separations of a basic analyte mixture. LC determination of the ion-ex
change capacity of the three silicas highlighted a significant difference i
n their acidic silanol activity i.e. Hypersil silica > Hypersil BDS silica
> Hypurity silica. The total silanol activity for the three phases was very
similar. Isocratic CEC analysis on the acidic Hypersil unbonded silica usi
ng RP-CEC mobile phase conditions (pH 7.8) generated excellent peak shape,
good efficiencies (148 - 508,000 plates/metre) and baseline separation with
in 14 min for a mixture of six pharmaceutically relevant basic analytes. Th
e less acidic unbonded silicas gave better peak shapes with reduced analysi
s times than the Hypersil silica, however baseline separation of the basic
analytes was not achieved. It was postulated that the separation mechanism
with unbonded silica is a balance between the analyte's electromobility and
its interaction (i.e. ion-exchange and reversed-phase/adsorption mechanism
s) with the silica surface. The magnitude of the interaction is dependent u
pon the proportion and distribution of acidic silanol groups present on the
surface and the pH of the mobile phase.
The silica materials exhibited a small, but significant, reversed-phase cha
racter thus enabling acid, base and neutral components to be separated with
in a single run.
Excellent CEC retention predictions were achieved by taking into considerat
ion the analyte's electromobilty in CE, its retention factor in LC and the
EOF in CEC under identical experimental conditions.
The technique has been shown to be truly orthogonal in nature to CE and LC
and hence is a highly complementary and important technique for the analyti
cal chemist.
The use of unbonded silica in CEC, with reversed-phase mobile phase conditi
ons, provides an excellent separation technique for the rapid analysis of b
asic analytes of wide structural diversity (i.e. differing pK(a)s and log P
values).