Abstract
Nickel (Ni) is toxic effect on human body and must be determined in human blood samples. In this study, Ni ions separated and preconcentrated from blood samples based on magnetic Fe3O4-supported amine/amide-functionalized graphene oxide (Fe3O4@A/A-GO) nanoparticles by dispersive sonication micro solid phase extraction (DS- μ-SPE). By procedure, 10 mg of Fe3O4@A/A-GO was dispersed in 10 mL of human blood samples with sonication for 5.0 min and then separated from liquid phase with magnetic accessory. The Ni ions was extracted based on amine/amide covalence bonding of Fe3O4@A/A-GO sorbent (Ni---: NH2). Then, the Ni ions back-extracted from Fe3O4@A/A-GO in low pH with nitric acid (0.2 mL, 0.3 M) which was diluted with DW up to 0.5 mL and finally, was determined by ET-AAS(peak area). The LOD, linear range (LR), enrichment factor (EF) and absorption capacity (AC) were obtained 35 ng L-1, 0.15 -7.2 μg L-1, 19.8 and 131.6 mg g-1, respectively.
Highlights
Nickel (Ni) is one of the toxic compounds in water contamination and caused to acute and chorionic effect in human bodies[1]
The flame atomic absorption spectrometry (F-AAS) and electrothermal atomic absorption spectrometry (ET-AAS) were reported for analysis of heavy metals such nickel (Ni) which was suitable for the determination in biological matrixes [6,7,8,9]
The different sample preparation technology exist for nickel extraction from blood samples such as liquid– liquid extraction (LLE) [17], solid-phase extraction (SPE) and functionalized magnetic-SPE [18], dispersive solvent by liquid–liquid microextraction method (DLLME) [19], phase extraction based on cloud point (CPE) [20], dispersive solid phase microextraction (D-SPME) [21], ultrasoundassisted solid phase extraction (USA-SPE) [22]
Summary
Nickel (Ni) is one of the toxic compounds in water contamination and caused to acute and chorionic effect in human bodies[1]. As difficulty matrixes in human biological samples such as blood or serum, the sample preparation is required to separation nickel ions from liquid phases. A novel sorbent based on Fe3O4supported amine/amide-functionalized graphene oxide (Fe3O4@A/A-GO) was used for separation/ speciation Ni(II) from human blood samples by dispersive sonication micro solid phase extraction (DS-μ-SPE) at pH=8.0.
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