超声处理的三维多孔细菌纤维素/氧化石墨烯复合水凝胶对Pb(II)的吸附性能

Pb(II) Adsorption Properties of a Three-Dimensional Porous Bacterial Cellulose/Graphene Oxide Composite Hydrogel Subjected to Ultrasonic Treatment.

作者信息

Zhang Xinxing, Xu Jing, Zhang Zhijie, Li Pengping, He Chang, Zhong Mingfeng

机构信息

Key Laboratory of Harbor & Marine Structure Durability Technology, Ministry of Transport of PRC, Guangzhou 510640, China.

School of Materials Science & Engineering, South China University of Technology, Guangzhou 510230, China.

出版信息

Materials (Basel). 2024 Jun 21;17(13):3053. doi: 10.3390/ma17133053.

DOI:10.3390/ma17133053

PMID:38998136

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11242312/

Abstract

A three-dimensional porous bacterial cellulose/graphene oxide (BC/GO) composite hydrogel (BC/GO) was synthesized with multi-layer graphene oxide (GO) as the modifier and bacterial cellulose as the skeleton via an ultrasonic shaking process to absorb lead ions effectively. The characteristics of BC/GO were investigated through TEM, SEM, FT-IR, NMR and Zeta potential experiments. Compared to bacterial cellulose, the ultrasonic method and the carboxyl groups stemming from GO helped to enhance the availability of O(3)H of BC, in addition to the looser three-dimensional structure and enriched oxygen-containing groups, leading to a significantly higher adsorption capacity for Pb(II). In this paper, the adsorption behavior of BC/GO is influenced by the GO concentration, adsorption time, and initial concentration. The highest adsorption capacity for Pb(II) on BC/GO found in this study was 224.5 mg/g. The findings implied that the pseudo-second-order model explained the BC/GO adsorption dynamics and that the data of its adsorption isotherm fit the Freundlich model. Because of the looser three-dimensional structure, the complexation of carboxyl groups, and the enhanced availability of O(3)H, bacterial cellulose exhibited a much better adsorption capacity.

摘要

以多层氧化石墨烯（GO）为改性剂、细菌纤维素为骨架，通过超声振荡法合成了一种三维多孔细菌纤维素/氧化石墨烯（BC/GO）复合水凝胶，以有效吸附铅离子。通过透射电子显微镜（TEM）、扫描电子显微镜（SEM）、傅里叶变换红外光谱（FT-IR）、核磁共振（NMR）和Zeta电位实验对BC/GO的特性进行了研究。与细菌纤维素相比，超声方法以及源自GO的羧基有助于提高BC中O(3)H的可及性，此外，其三维结构更松散且含氧量丰富的基团，使其对Pb(II)的吸附容量显著更高。本文中，BC/GO的吸附行为受GO浓度、吸附时间和初始浓度的影响。本研究中发现BC/GO对Pb(II)的最高吸附容量为224.5 mg/g。研究结果表明，准二级模型解释了BC/GO的吸附动力学，其吸附等温线数据符合Freundlich模型。由于三维结构更松散、羧基的络合作用以及O(3)H可及性的提高，细菌纤维素表现出更好的吸附容量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/99b3/11242312/46187eb41dc6/materials-17-03053-g001.jpg

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超声处理的三维多孔细菌纤维素/氧化石墨烯复合水凝胶对Pb(II)的吸附性能

Pb(II) Adsorption Properties of a Three-Dimensional Porous Bacterial Cellulose/Graphene Oxide Composite Hydrogel Subjected to Ultrasonic Treatment.

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