An efficient 3D adsorbent foam based on graphene oxide/AgO nanoparticles for rapid vortex-assisted floating solid phase extraction of bisphenol A in canned food products

Abstract

In this study, a three-dimensional adsorbent was developed based on graphene oxide/AgO nanoparticles over interconnected nickel foam (GO/AgO@Ni foam) for rapid and efficient vortex assisted floating solid phase extraction of bisphenol A in canned food products prior to high performance liquid chromatography with a fluorescence detector. The analytical techniques scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDX) and Fourier transform infrared (FT-IR) were used for characterization of the synthetized GO/AgO@Ni foam. The effect of proficiency factors including pH, foam size, vortexing time, salt addition, sample volume, desorption type and volume, and desorption time on the extraction efficiency of bisphenol A were explored through the matrix match method. Under the above experimental conditions, the figures of merit of the method were acquired as LODs (S/N = 3) of 0.18-0.84 mu g kg(-1), LOQs of 0.61-2.81 mu g kg(-1) (S/N = 10), linear ranges of 0.5-500 mu g kg(-1), and enrichment factors of 235.5-244.9. The inter-day precision values (RSD, n = 7) of 2.5-3.6 and the intra-day precision () of (5 days and seven replicates for each day) 2.8-3.8 were achieved for bisphenol A at a concentration of 50 mu g kg(-1). The relative recoveries of 94.0 to 99.6 were obtained for the canned food samples.