载枯草芽孢杆菌γ-FeO 纳米材料的磁固相萃取预浓缩 Cu（II）和 Mn（II）。

Preconcentrations of Cu (II) and Mn (II) by magnetic solid-phase extraction on Bacillus cereus loaded γ-FeO nanomaterials.

机构信息

Food Processing Programme, Technical Science Vocational School, Mersin University, 33343, Yenisehir, Mersin, Turkey.

Kutahya Public Health Laboratory, Kutahya, Turkey.

出版信息

Environ Res. 2022 Jun;209:112766. doi: 10.1016/j.envres.2022.112766. Epub 2022 Jan 24.

DOI:10.1016/j.envres.2022.112766

PMID:35085567

Abstract

For the simultaneous preconcentrations of Cu(II) and Mn(II), a novel preconcentration technique was developed and described. Bacillus cereus loaded magnetic ɣ-FeO nanoparticles were prepared and used as support materials on solid-phase extraction procedure. Important experimental parameters were investigated in details and pH 6.0, 3 mL min of flow rate, 5 mL of 1 mol L of HCl as eluent, 200 mg of biomass, and 200 mg of magnetic ɣ-FeO nanoparticles as support material was found as the best conditions. The preconcentrations factor were found to be 80 for Cu (II) and Mn(II). It was confirmed by the results that SPE columns could be used in 32 cycles. The LOD values calculated for Cu (II) and Mn (II) were 0.09 and 0.08 ng mL, respectively. The RSD values found were less than 3.4%. The extraction recoveries were achieved as higher than 98%. The biosorption capacities of Cu (II), and Mn (II) were 26.0 mg g, 30.3 mg g respectively. The approach devised for analyzing analyte concentrations in food samples proved to be successful.

摘要

为了同时预浓缩 Cu(II)和 Mn(II)，开发并描述了一种新的预浓缩技术。制备了负载枯草芽孢杆菌的磁性ɣ-FeO 纳米粒子，并将其用作固相萃取程序中的支撑材料。详细研究了重要的实验参数，发现最佳条件为 pH 6.0、3 mL min 的流速、5 mL 1 mol L 的 HCl 作为洗脱液、200 mg 生物质和 200 mg 磁性ɣ-FeO 纳米粒子作为支撑材料。Cu(II)和 Mn(II)的预浓缩因子分别为 80。结果证实，SPE 柱可以使用 32 个循环。计算得到的 Cu(II)和 Mn(II)的检出限分别为 0.09 和 0.08 ng mL。发现的 RSD 值小于 3.4%。萃取回收率均高于 98%。Cu(II)和 Mn(II)的生物吸附容量分别为 26.0 mg g 和 30.3 mg g。该方法用于分析食品样品中的分析物浓度被证明是成功的。

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载枯草芽孢杆菌γ-FeO 纳米材料的磁固相萃取预浓缩 Cu（II）和 Mn（II）。

Preconcentrations of Cu (II) and Mn (II) by magnetic solid-phase extraction on Bacillus cereus loaded γ-FeO nanomaterials.

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