Mt. Matyska et al., Open tubular capillary electrochromatography using etched fused-silica tubing modified with chemically bonded liquid crystals, ANALYT CHEM, 71(24), 1999, pp. 5508-5514
Two liquid crystal compounds, cholesterol-10-undeceneoate and 4-cyano-4'-pe
ntoxybiphenyl, are attached to the inner wall of a fused-silica capillary t
hat has been etched by ammonium hydrogen fluoride. The bonding process invo
lves formation of a hydride layer on the etched surface via a silanization
reaction with triethoxysilane followed by attachment of the liquid crystal
using a hydrosilation reaction. The etched surface is characterized bq phot
oelectron spectroscopy (ESCA) and the inner wall after being chemically mod
ified with the liquid crystal is analyzed by diffuse reflectance infrared F
ourier transform spectroscopy. The surface properties of these materials ar
e further probed by measuring electroosmotic flow as a function of pH, The
performance of the etched chemically modified capillaries as a separation m
edium is evaluated by electrochromatographic experiments using of proteins,
pyrimidine/purine bases and a nucleoside, benzodiazepines, the synthetic a
nd metabolic compounds of serotonin, and other small basic molecules, In al
l cases, peak symmetry is good and efficiency is generally considerably hig
her than in packed capillary CEC, In some instances, there are significant
differences in selectivity between the two capillaries indicating that the
type of liquid crystal (cholesteric or nematic) is an important factor in t
he separation mechanism. Finally, during the evaluation period for the capi
llaries used in this study there was no significant loss in chromatographic
performance, indicating that the long-term stability of these materials is
good.