Efficient solid phase microextraction of organic pollutants based on graphene oxide/chitosan aerogel

The design and synthesis of novel high-performance solid phase microextraction (SPME) coatings towards organic pollutants with diverse chemical properties is still a challenge in sample preparation. Herein, a stable chitosan cross-linked graphene oxide (GOCS) aerogel was reported as a novel coating...

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Published in:Analytica chimica acta 2022-02, Vol.1195, p.339462-339462, Article 339462
Main Authors: Peng, Sheng, Huang, Yuyan, Ouyang, Sai, Huang, Junlong, Shi, Yueru, Tong, Yuan-Jun, Zhao, Xueli, Li, Nan, Zheng, Jiating, Zheng, Juan, Gong, Xinying, Xu, Jianqiao, Zhu, Fang, Ouyang, Gangfeng
Format: Article
Language:English
Subjects:
Chitosan
Chitosan cross-linked graphene oxide aerogel
Environmental Pollutants
Gas chromatography-mass spectrometry
Graphite
Organic pollutants
Organophosphorus Compounds
Pesticides
Solid Phase Microextraction
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Summary:The design and synthesis of novel high-performance solid phase microextraction (SPME) coatings towards organic pollutants with diverse chemical properties is still a challenge in sample preparation. Herein, a stable chitosan cross-linked graphene oxide (GOCS) aerogel was reported as a novel coating for solid phase microextraction. The interpenetrated meso- and macropores ensured the large surface area and high accessibility of the functional groups across the aerogel, resulting in high extraction performance towards target hydrophobic pollutants. The extraction capacities of the GOCS-coated SPME fiber towards analytes (e.g. polycyclic aromatic hydrocarbons, organophosphorus pesticides, organochlorine pesticides, pyrethroids, and polychlorinated biphenyls) were about 0.5–13 times as high as those obtained by the commercial fibers (30 μm polydimethylsiloxane (PDMS), 65 μm polydimethylsiloxane/divinylbenzene (PDMS/DVB)), which was attributed to the hydrophobic, π-π, halogen bond and hydrogen bond interactions between the coating and the analytes. Under the optimized extraction conditions, superior analytical performances for PAHs were achieved with a wide linearity (0.5–1000 ng L−1), high enhancement factors (311–3740), and the low limits of detection (0.03–1.28 ng L−1). Finally, the GOCS-coated SPME fiber was successfully applied to the determination of PAHs in real water samples with good recoveries (91.6%–110%). [Display omitted] •The GOCS aerogel was synthesized and fabricated as a novel SPME fiber coating.•GOCS fiber exhibited high extraction efficiency for diverse hydrophobic pollutants.•Hydrophobic, π-π, halogen bond and hydrogen bond interaction affected the extraction.•The DI-SPME method was developed for PAHs detection with high sensitivity.
ISSN:0003-2670
1873-4324
DOI:10.1016/j.aca.2022.339462