Silica SOS@HKUST-1 composite microspheres as easily packed stationary phases for fast separation
Silica SOS@HKUST-1 composite microspheres as easily packed stationary phases for fast separation
Metal–organic frameworks (MOFs) have been investigated for separations including chromatography. Typically, MOF particles are directly packed into columns for the separations. The irregular shapes and wide size distributions of MOF particles have led to difficulty in column packing and low column efficiency or high back pressure. We describe here the preparation of MOF–silica microspheres as packing materials for fast and efficient liquid chromatography. Spheres-on-sphere (SOS) silica particles are prepared, modified with –COOH and –NH2 groups, and then used as support to grow HKUST-1. HKUST-1 nanocrystals and films are formed and attached firmly onto the SOS particles with adjustable porosity. The composite microspheres, showing core–shell properties, are directly packed into columns to offer separation capability of MOFs and efficient packing and support of silica microspheres. These columns show separation of toluene/ethylbenzene/styrene and toluene/o-xylene/thiophene within 1.5 minutes. Although HKUST-1 is not good for separating xylene isomers, the separation can be achieved in 5 minutes using the composite microspheres after conditioning the column with dichloromethane or toluene. Remarkably, it is observed that conditioning with DCM can change retention time and selectivity (elution order) of xylene isomers. It is also possible to produce other types of MOFs (e.g., ZIF-8) on the SOS particles, indicating the potential of this method for wider applications.
3276-3286
Ahmed, Adham
5729aef8-2ee5-4b62-a6d2-ec26dd50683a
Forster, Mark
8f94fe8a-6edf-403f-883c-13bc7edb12d5
Clowes, Rob
11e42a35-d9b1-44be-84af-10a5bac63b00
Bradshaw, Darren
7677b11e-1961-447e-b9ba-4847a74bd4dd
Myers, Peter
c585859c-001d-4ab4-b6bd-b9cc55bfdb50
Zhang, Haifei
8904e696-1920-4863-9368-0c444aff7354
2013
Ahmed, Adham
5729aef8-2ee5-4b62-a6d2-ec26dd50683a
Forster, Mark
8f94fe8a-6edf-403f-883c-13bc7edb12d5
Clowes, Rob
11e42a35-d9b1-44be-84af-10a5bac63b00
Bradshaw, Darren
7677b11e-1961-447e-b9ba-4847a74bd4dd
Myers, Peter
c585859c-001d-4ab4-b6bd-b9cc55bfdb50
Zhang, Haifei
8904e696-1920-4863-9368-0c444aff7354
Ahmed, Adham, Forster, Mark, Clowes, Rob, Bradshaw, Darren, Myers, Peter and Zhang, Haifei
(2013)
Silica SOS@HKUST-1 composite microspheres as easily packed stationary phases for fast separation.
Journal of Materials Chemistry, 1 (10), .
(doi:10.1039/C2TA01125E).
Abstract
Metal–organic frameworks (MOFs) have been investigated for separations including chromatography. Typically, MOF particles are directly packed into columns for the separations. The irregular shapes and wide size distributions of MOF particles have led to difficulty in column packing and low column efficiency or high back pressure. We describe here the preparation of MOF–silica microspheres as packing materials for fast and efficient liquid chromatography. Spheres-on-sphere (SOS) silica particles are prepared, modified with –COOH and –NH2 groups, and then used as support to grow HKUST-1. HKUST-1 nanocrystals and films are formed and attached firmly onto the SOS particles with adjustable porosity. The composite microspheres, showing core–shell properties, are directly packed into columns to offer separation capability of MOFs and efficient packing and support of silica microspheres. These columns show separation of toluene/ethylbenzene/styrene and toluene/o-xylene/thiophene within 1.5 minutes. Although HKUST-1 is not good for separating xylene isomers, the separation can be achieved in 5 minutes using the composite microspheres after conditioning the column with dichloromethane or toluene. Remarkably, it is observed that conditioning with DCM can change retention time and selectivity (elution order) of xylene isomers. It is also possible to produce other types of MOFs (e.g., ZIF-8) on the SOS particles, indicating the potential of this method for wider applications.
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Published date: 2013
Organisations:
Organic Chemistry: Synthesis, Catalysis and Flow
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Local EPrints ID: 363399
URI: http://eprints.soton.ac.uk/id/eprint/363399
PURE UUID: 86f16772-3462-4712-bfe1-6482e859a08d
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Date deposited: 25 Mar 2014 11:16
Last modified: 15 Mar 2024 03:40
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Author:
Adham Ahmed
Author:
Mark Forster
Author:
Rob Clowes
Author:
Peter Myers
Author:
Haifei Zhang
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