Three dimensional graphene materials doped with heteroatoms for extraction and adsorption of environmental pollutants in wastewater.

IF 1.2 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES
Zhiyong Guo, Yufeng Feng, Chen Zhang, Guihua Huang, Jinxin Chi, Qiuhong Yao, Guofeng Zhang, Xi Chen
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引用次数: 3

Abstract

Environmental pollution by heavy metal ions, organic pollutants, oils, pesticides or dyes is a ubiquitous problem adversely affecting human health and environmental ecology. Development and application novel adsorbents in full-scale treatment systems with effectiveness properties could effective ways to facilitate the extraction and adsorption of environment pollutants from wastewater. Graphene materials have drawn much attention due to their extraordinary electron mobilities, high surface areas, good thermal conductivities, and excellent mechanical properties. Three-dimensional graphene materials can provide the inherent advantages of 2D graphene sheets and exhibit micro/nanoporous structures, increased specific surface areas, high electron conductivities, fast mass transport kinetics, and strong mechanical strength. Potential applications for 3D graphene materials include environmental remediation, chemical and biological sensing, catalysis, and super capacitors. Recent advances in the applications of 3D functionalized graphene materials (3D FGMs) doped with heteroatoms for the extraction and adsorption of environmental pollutants in wastewater are summarized in this review.

掺杂杂原子的三维石墨烯材料对废水中环境污染物的提取和吸附。
重金属离子、有机污染物、油类、农药或染料等对环境的污染是一个普遍存在的问题,对人类健康和环境生态造成了不利影响。新型吸附剂的开发和应用可有效地促进废水中环境污染物的提取和吸附。石墨烯材料因其优异的电子迁移率、高的比表面积、良好的导热性和优异的机械性能而备受关注。三维石墨烯材料具有二维石墨烯片的固有优点,具有微孔/纳米孔结构、增加的比表面积、高的电子导电性、快速的质量传递动力学和强的机械强度。3D石墨烯材料的潜在应用包括环境修复、化学和生物传感、催化和超级电容器。本文综述了掺杂杂原子的三维功能化石墨烯材料(3D FGMs)在废水中环境污染物的提取和吸附中的应用研究进展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.60
自引率
0.00%
发文量
10
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