铀
吸附
表面改性
萃取(化学)
碳纤维
活性炭
螯合作用
石墨烯
海水
化学工程
耐久性
热处理
纳米技术
材料科学
无机化学
功能群
复合数
作者
Maqbool Hussain,Zhao Liang,Xusheng Zhang,Yang Chen,Yi Cui,Zhisheng Yu,Jianzhong Zheng
出处
期刊:Separations
[Multidisciplinary Digital Publishing Institute]
日期:2025-10-13
卷期号:12 (10): 283-283
被引量:5
标识
DOI:10.3390/separations12100283
摘要
The development of effective materials for uranium extraction from seawater is vital for advancing sustainable energy solutions. However, the efficient recovery of uranium from seawater presents significant challenges due to its extremely low concentration, the presence of competing ions, and the complex marine environment. To address these issues, various materials such as inorganic and organic sorbents, chelating resins, nanostructured sorbents, and composite materials have been explored. More recently, the functionalization of carbon-based materials for enhanced adsorption properties has attracted much interest because of their high specific surface area, excellent chemical and thermal stability, and tunable porosity. These materials include activated carbon, graphene oxide, biochar, carbon cloths, carbon nanotubes, and carbon aerogels. The enhancement of carbonaceous materials is typically achieved through surface functionalization with chelating groups and the synthesis of composite materials that integrate other high-performance sorbents. This review aims to summarize the work of these functionalized carbon materials, focusing on their adsorption capacity, selectivity, and durability for uranium adsorption. This is followed by a discussion on the binding mechanisms of uranium with major chelating functional groups grafted on carbonaceous sorbents. Finally, an outlook for future research is suggested. We hope that this review will be helpful to researchers engaged in related studies.
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