Fabrication of metal–organic framework MIL-88B films on stainless steel fibers for solid-phase microextraction of polychlorinated biphenyls

•MIL-88B coated SPME fiber was fabricated via an in situ hydrothermal growth approach.•MIL-88B coated fiber showed good stability and large enhancement factors for SPME of PCBs.•MIL-88B coated fiber gave low detection limits, wide linearity and good reproducibility for PCBs. Metal–organic frameworks...

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Bibliographic Details
Published in:Journal of Chromatography A 2014-03, Vol.1334, p.1-8
Main Authors: Wu, Ye-Yu, Yang, Cheng-Xiong, Yan, Xiu-Ping
Format: Article
Language:English
Subjects:
Analysis methods
Analytical chemistry
Applied sciences
Cages
Chemistry
Chromatographic methods and physical methods associated with chromatography
Coated fibers
Exact sciences and technology
Fibers
Gas chromatographic methods
Metal-organic frameworks
MIL-88B
Nanostructure
Natural water pollution
Pollution
Polychlorinated biphenyl
Polychlorinated biphenyls
Soil (material)
Soil and sediments pollution
Solid-phase microextraction
Stainless steels
Surface area
Water treatment and pollution
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Summary:•MIL-88B coated SPME fiber was fabricated via an in situ hydrothermal growth approach.•MIL-88B coated fiber showed good stability and large enhancement factors for SPME of PCBs.•MIL-88B coated fiber gave low detection limits, wide linearity and good reproducibility for PCBs. Metal–organic frameworks (MOFs) have received considerable attention as novel sorbents for sample preparation due to their fascinating structures and functionalities such as large surface area, good thermal stability, and uniform structured nanoscale cavities. Here, we report the application of a thermal and solvent stable MOF MIL-88B with nanosized bipyramidal cages and large surface area for solid-phase microextraction (SPME) of polychlorinated biphenyls (PCBs). Novel MIL-88B coated fiber was fabricated via an in situ hydrothermal growth of MIL-88B film on etched stainless steel fiber. The MIL-88B coated fiber gave large enhancement factors (757–2243), low detection limits (0.45–1.32ngL−1), and good linearity (5–200ngL−1) for PCBs. The relative standard deviation (RSD) for six replicate extractions of PCBs at 100ngL−1 on MIL-88B coated fiber ranged from 4.2% to 8.7%. The recoveries for spiked PCBs (10ngL−1) in water and soil samples were in the range of 79.7–103.2%. Besides, the MIL-88B coated fiber was stable enough for 150 extraction cycles without significant loss of extraction efficiency. The developed method was successfully applied to the determination of PCBs in water samples and soil samples.
ISSN:0021-9673
DOI:10.1016/j.chroma.2014.01.079