壳聚糖作为氧化石墨的纳米填充剂在去除有毒汞离子中的作用。

The role of chitosan as nanofiller of graphite oxide for the removal of toxic mercury ions.

机构信息

Laboratory of General & Inorganic Chemical Technology, Division of Chemical Technology, School of Chemistry, Aristotle University of Thessaloniki, GR-541 24 Thessaloniki, Greece.

出版信息

Colloids Surf B Biointerfaces. 2014 Jan 1;113:467-76. doi: 10.1016/j.colsurfb.2013.07.055. Epub 2013 Aug 8.

DOI:10.1016/j.colsurfb.2013.07.055

PMID:23973000

Abstract

The present study focuses on the role of chitosan (CS) as nanofiller of graphite oxide (GO) in order to prepare composite materials with improved Hg(II) adsorption properties. The removal of Hg(II) from aqueous solutions was studied using adsorbents as graphite oxide (GO), graphite oxide nanofilled with chitosan (GO/CS) and magnetic chitosan (GO/mCS). Many possible interactions between materials and Hg(II) were observed after adsorption and explained via characterization with various techniques (SEM/EDAX, FTIR, XRD, DTG). The adsorption evaluation was done studying various parameters as the effect of pH (both in adsorption and desorption), contact time (pseudo-second order fitting), temperature (isotherms at 25, 45, 65 °C), in line with a brief thermodynamic analysis (ΔG(0), ΔH(0), ΔS(0)). The maximum adsorption capacity (fitting with Langmuir model) of GO at 25 °C was Qmax=187 mg/g, while after the CS nanofilling (formation of the composite GO/CS), Qmax was increased to 381 mg/g with a further enhancement for GO/mCS (Qmax=397 mg/g).

摘要

本研究关注壳聚糖（CS）作为氧化石墨（GO）纳米填料的作用，旨在制备具有改善汞（II）吸附性能的复合材料。使用吸附剂如氧化石墨（GO）、壳聚糖填充的氧化石墨（GO/CS）和磁性壳聚糖（GO/mCS）研究了从水溶液中去除汞（II）。吸附后通过各种技术（SEM/EDAX、FTIR、XRD、DTG）进行了表征，观察到材料与 Hg(II) 之间存在许多可能的相互作用，并进行了解释。通过研究各种参数（吸附和脱附的 pH 值影响、接触时间（准二级拟合）、温度（25、45、65°C 下的等温线））进行了吸附评价，同时进行了简要的热力学分析（ΔG(0)、ΔH(0)、ΔS(0)）。在 25°C 时，GO 的最大吸附容量（与 Langmuir 模型拟合）为 Qmax=187mg/g，而在 CS 纳米填充（形成复合材料 GO/CS）后，Qmax 增加到 381mg/g，GO/mCS 进一步增强，Qmax=397mg/g。

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壳聚糖作为氧化石墨的纳米填充剂在去除有毒汞离子中的作用。

The role of chitosan as nanofiller of graphite oxide for the removal of toxic mercury ions.

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