功能化纳米花状羟基硅酸镁对黄曲霉毒素 B1 的有效吸附。

Functionalized nanoflower-like hydroxyl magnesium silicate for effective adsorption of aflatoxin B1.

机构信息

Key Laboratory of Special Functional Materials for Ecological Environment and Information (Hebei University of Technology), Ministry of Education, Tianjin 300130, People's Republic of China; Key Laboratory for Liquid-Solid Structural Evolution and Processing of Materials, Ministry of Education (Shandong University), Jinan 250061, People's Republic of China.

Key Laboratory of Special Functional Materials for Ecological Environment and Information (Hebei University of Technology), Ministry of Education, Tianjin 300130, People's Republic of China.

出版信息

J Hazard Mater. 2020 Apr 5;387:121792. doi: 10.1016/j.jhazmat.2019.121792. Epub 2019 Nov 30.

DOI:10.1016/j.jhazmat.2019.121792

PMID:31818670

Abstract

Aflatoxin B1 (AFB1), which is widely found in food and feed, poses a serious threat to the health of human and livestock. In this work, functionalized nanoflower-like hydroxyl magnesium silicate (FNHMS) was synthesized for adsorption of AFB1. First, bulk magnesium silicate (MS) was converted into nanoflower-like hydroxyl magnesium silicate (NHMS) by hydroxylation. Cetyltrimethylammonium bromide (CTMAB) modification then enhanced the hydrophobicity and the affinity to AFB1 of NHMS. The adsorption performance for AFB1 followed the order of MS < NHMS < FNHMS, and the adsorption performance increased with the increase of the dose of CTMAB. Isothermal adsorption analysis indicated that the surface of FNHMS was heterogeneous. The adsorption capacity of FNHMS-0.4 to AFB1 was estimated to be 27.34 mg g and 28.61 mg g by Freundlich and Dubinin-Radushkevich isotherm adsorption model, respectively. By analyzing the adsorption kinetics and adsorption thermodynamics, both physical adsorption and chemisorption existed in the process of AFB1 being adsorbed on FNHMS-0.4. Adsorption mechanisms analysis indicated that the adsorption followed the adsorption site priority of H > O > Mg. This work demonstrates that FNHMS could be a promising adsorbent for removal of AFB1.

摘要

黄曲霉毒素 B1（AFB1）广泛存在于食品和饲料中，对人类和牲畜的健康构成严重威胁。本工作合成了功能化纳米花状羟基硅酸镁（FNHMS）用于吸附 AFB1。首先，通过羟化将块状硅酸镁（MS）转化为纳米花状羟基硅酸镁（NHMS）。然后，十六烷基三甲基溴化铵（CTMAB）改性增强了 NHMS 的疏水性和对 AFB1 的亲和力。对 AFB1 的吸附性能顺序为 MS<NHMS<FNHMS，并且吸附性能随 CTMAB 剂量的增加而增加。等温吸附分析表明 FNHMS 的表面是不均匀的。FNHMS-0.4 对 AFB1 的吸附容量分别通过 Freundlich 和 Dubinin-Radushkevich 等温吸附模型估计为 27.34 mg g 和 28.61 mg g。通过分析吸附动力学和吸附热力学，在 AFB1 被吸附到 FNHMS-0.4 的过程中，存在物理吸附和化学吸附。吸附机理分析表明，吸附遵循 H>O>Mg 的吸附位优先顺序。这项工作表明 FNHMS 可能是一种很有前途的吸附剂，可用于去除 AFB1。

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功能化纳米花状羟基硅酸镁对黄曲霉毒素 B1 的有效吸附。

Functionalized nanoflower-like hydroxyl magnesium silicate for effective adsorption of aflatoxin B1.

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