基于埃洛石和锂皂石粘土矿物共价桥联的纳米材料的合成与表征

Synthesis and Characterization of Nanomaterial Based on Halloysite and Hectorite Clay Minerals Covalently Bridged.

作者信息

Massaro Marina, Viseras Iborra Cesar, Cavallaro Giuseppe, Colletti Carmelo Giuseppe, García-Villén Fátima, Lazzara Giuseppe, Riela Serena

机构信息

Department of Biological, Chemical and Pharmaceutical Sciences and Technologies, University of Palermo Viale delle Scienze, Ed. 17, 90128 Palermo, Italy.

Department of Pharmacy and Pharmaceutical Technology, Faculty of Pharmacy, University of Granada, Campus of Cartuja, 18071 s/n Granada, Spain.

出版信息

Nanomaterials (Basel). 2021 Feb 17;11(2):506. doi: 10.3390/nano11020506.

DOI:10.3390/nano11020506

PMID:33671328

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7922904/

Abstract

Halloysite is an aluminosilicate clay with a predominantly hollow tubular structure (HNTs) able to act as a nanocontainer for the encapsulation of several chemicals. However, HNTs possess low affinity for metal ions in their pristine form and they need to be modified for improving their adsorption capabilities. Therefore, to overcome this issue herein we report a straightforward approach for the covalent modification of the external surface of halloysite nanotubes with hectorite clay. Compared to halloysite, hectorite possesses a lamellar structure with higher cation exchange capacity. The covalent linkage between the two clays was verified by several techniques (FTIR spectroscopy, C CP-MAS NMR, TGA, ζ-potential, DLS, and XRD measurements) and the morphology was imaged by TEM investigations. As proof of concept the adsorption ability of the obtained nanomaterial in comparison to pristine clays was proved using ciprofloxacin and silver ions chosen as models for their different chemical characteristics.

摘要

埃洛石是一种主要具有中空管状结构的铝硅酸盐粘土（HNTs），能够作为纳米容器用于封装多种化学物质。然而，原始形态的HNTs对金属离子的亲和力较低，需要进行改性以提高其吸附能力。因此，为克服这一问题，我们在此报告一种用锂皂石粘土对埃洛石纳米管外表面进行共价改性的直接方法。与埃洛石相比，锂皂石具有层状结构且阳离子交换容量更高。通过多种技术（傅里叶变换红外光谱、碳交叉极化魔角旋转核磁共振、热重分析、ζ电位、动态光散射和X射线衍射测量）验证了两种粘土之间的共价键，并通过透射电子显微镜研究对形态进行了成像。作为概念验证，使用环丙沙星和银离子作为具有不同化学特性的模型，证明了所得纳米材料与原始粘土相比的吸附能力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e87c/7922904/fa44f7152f5d/nanomaterials-11-00506-sch001.jpg

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基于埃洛石和锂皂石粘土矿物共价桥联的纳米材料的合成与表征

Synthesis and Characterization of Nanomaterial Based on Halloysite and Hectorite Clay Minerals Covalently Bridged.

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