Synthesis of Nanospheres-on-Microsphere Silica with
Tunable Shell Morphology and Mesoporosity for Improved HPLC
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Abstract
Core–shell particles have
a wide range of applications.
Most of the core–shell particles are prepared in two or multiple
steps. Core–shell silica microspheres, with solid core and
porous shell, have been used as novel packing materials in recent
years for highly efficient liquid chromatography separation with relatively
low back-pressure. These core–shell silica microspheres are
usually prepared by the time-consuming layer-by-layer technique. Built
on our previous report of one-pot synthesis of core–shell nanospheres-on-microspheres
(termed as SOS particles for “spheres-on-spheres”),
we describe here a two-stage synthesis for the introduction of shell
mesoporosity into SOS particles with tunable shell morphology by co-condensation
of tetraethyl orthosilicate (TEOS) with 3-mercaptopropyltrimethoxysilane
(MPTMS) in the presence of surfactant in the second stage. With MPTMS
as the primary precursor at the first stage, some other silica precursors
(apart from TEOS) are also employed at the second stage. Expansion
of the surfactant-templated mesopores with swelling agents during
the reaction and by hydrothermal postsynthesis treatment is then performed
to allow the pore sizes (> 6 nm) suitable for separation of small
molecules in liquid chromatography. Compared to the standard SOS silica
(both the nanospheres and microspheres contain nearly no mesopores),
the introduction of mesoporosity into the nanosphere shell increases
the separation efficiency of small molecule mixtures by 4 times as
judged by the height equivalent plate number, while the separation
of protein mixtures is not negatively affected