4.7 Article

Hierarchical covalent organic framework hollow nanofibers-bonded stainless steel fiber for efficient solid phase microextraction

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TALANTA
卷 267, 期 -, 页码 -

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ELSEVIER
DOI: 10.1016/j.talanta.2023.125223

关键词

Solid phase microextraction; Covalent organic frameworks; Hollow nanofibers; Enrichment factors; Extraction fibers

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In this study, a templating strategy with SiO2 nanofibers was developed to synthesize COF HNFs-coated stainless steel fibers for SPME application, leading to significantly enhanced enrichment performance for trace analytes. The method also offers advantages such as tunable coating thickness, high sensitivity, and excellent reusability.
The solid phase microextraction (SPME) technique has been widely applied in the detection of trace compounds in food, environment, and medicine due to its advantages of easy quantification, simple operation, and green-ness. Herein, a templating strategy with SiO2 nanofibers (SiO2 NFs) is reported to synthesize hierarchical co -valent organic framework hollow nanofibers (COF HNFs)-coated stainless steel fiber for SPME application with dramatically enhanced enrichment performance for trace analytes. The construction of hierarchical porosity inside the microextraction coatings can not only increase the specific surface area of COF extraction materials for obtaining more abundant adsorption sites but also greatly improve the accessibility of internal COF micropores. Moreover, the thicknesses of the microextraction COF coatings can be facilely tailored by adjusting the amount of SiO2 NFs pre-assembled on the SPME fibers. On the headspace solid phase microextraction (HS-SPME) of anti-microbial residues, the developed COF TpBD-Me-2 HNFs-12 fibers achieve enrichment factors of 2026 and 1823 for thymol and carvacrol respectively, which are significantly higher than those obtained from the counterpart COF TpBD-Me2-bonded fiber (8.5-8.2 times) and commercial CAR/PDMS fiber (3.3-4.4 times). Furthermore, the developed method was demonstrated to have wide linearity (0.1-50 mu g L-1), low limits of detection (0.010 mu g L- 1), good thermal stability and excellent reusability (>60 recycles), demonstrating great application potential in the extraction of trace organic pollutants. The strategy developed in this work is applicable to preparing a variety of topological COF (e.g., TpBD, TpPa-1) HNFs-bonded fibers.

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