吸附
镥
朗缪尔吸附模型
环境修复
水溶液
废水
离子交换
金属有机骨架
水溶液中的金属离子
化学
朗缪尔
工业废水处理
金属
化学工程
材料科学
离子
环境科学
有机化学
环境工程
污染
钇
氧化物
工程类
生物
生态学
作者
Yi Zhang,Xiao Pan,Yehuizi Wu,Zixian Huang,Zhigang Pan,Yuezhou Wei,Xiangbiao Yin
摘要
ABSTRACT Lutetium (Lu(III)), a heavy rare earth element, plays a critical role in advanced industrial processes and nuclear medicine applications. Given its high economic value and potential environmental risks, the recovery of Lu(III) from medical wastewater is both necessary and urgent. However, previous studies on the adsorption behavior of Lu(III) have been limited by low adsorption capacity, competition from coexisting metal ions, and the influence of environmental temperature. In this work, a copper (Cu)‐based, conventional metal–organic framework (MOF) material named HKUST‐1 was employed for the recovery of Lu(III). The effects of pH and shaking speed, adsorption isotherms, and adsorption kinetics were systematically investigated. The maximum adsorption capacity was 512.82 mg·g −1 , calculated with the Langmuir isotherm model. Comprehensive characterization suggested that the adsorption mechanism involves ion exchange between Lu(III) and Cu(II), as well as the formation of Lu─O covalent bonds. Furthermore, adsorption experiments using simulated medical wastewater were conducted to evaluate the practical applicability. This work highlights a promising strategy for Lu(III) recovery from aqueous waste streams, demonstrating the high efficiency and application potential of HKUST‐1 in environmental remediation.
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