Issue 18, 2017

A convenient approach for the determination of multiple trace BPs using an in-syringe-assisted solid phase microextraction system packed with elastic spongy graphene rods coupled with HPLC

Abstract

An elastic cylindrical three-dimensional porous spongy graphene rod (3D-PSGR) was synthesized by a facile one-step hydrothermal method and applied in a syringe system as a solid phase adsorbent for the extraction of nine trace bisphenol analogs (BPs) from environmental samples. In this study, a simple sample pretreatment procedure in-syringe-assisted solid phase microextraction (ISA-SPME) was developed for the detection of nine BPs with HPLC. The full protocols for the extraction and elution process were achieved in a syringe. After enrichment, the sample solution was expelled slowly from the syringe to leave the adsorbent with the analytes behind. The analyte-enriched adsorbent was then eluted by drawing MeOH into the syringe, and the elution solution was then injected in HPLC. The 3D-PSGR exhibits excellent cycling stability and can be reused for eight consecutive cycles without significant loss of extraction efficiencies. The 3D-PSGR-ISA-SPME was applied successfully to the analysis of nine BPs in river water and soil samples. The method detection limits (MDLs) were in the range of 0.39–3.97 ng mL−1, and the extraction recoveries of the spiked samples were in the range of 96.5–102.6% with relative standard deviations (RSDs) of 2.11–4.27%. A convenient method is proposed for the analysis of nine trace BPs in environmental samples.

Graphical abstract: A convenient approach for the determination of multiple trace BPs using an in-syringe-assisted solid phase microextraction system packed with elastic spongy graphene rods coupled with HPLC

Article information

Article type
Paper
Submitted
10 Feb 2017
Accepted
10 Apr 2017
First published
10 Apr 2017

Anal. Methods, 2017,9, 2673-2681

A convenient approach for the determination of multiple trace BPs using an in-syringe-assisted solid phase microextraction system packed with elastic spongy graphene rods coupled with HPLC

L. Wang, Q. Li and L. Zhang, Anal. Methods, 2017, 9, 2673 DOI: 10.1039/C7AY00352H

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