Adsorption of La3+ and Ce3+ by poly-γ-glutamic acid crosslinked with polyvinyl alcohol

With the exploitation of rare earth ore, more and more rare earth elements came into groundwater, caused waste of resources and toxicity to the organisms. This study aimed to find an efficient adsorption material to mitigate the above issue. Through doping polyvinyl alcohol with poly-γ-glutamic acid...

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Bibliographic Details
Published inJournal of rare earths Vol. 33; no. 8; pp. 884 - 891
Main Author 高玉千 张世敏 赵凯亚 王志伟 徐淑霞 梁振普 吴坤
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.08.2015
Subjects
adsorption
poly-γ-glutamic acid
polyvinyl alcohol
rare earth ion
γ-聚谷氨酸
交联
傅里叶变换红外光谱
吸附材料
混合水溶液
稀土元素
等温吸附模型
聚乙烯醇凝胶
poly-γ-glutamic acid
adsorption
rare earth ion
polyvinyl alcohol
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Summary:With the exploitation of rare earth ore, more and more rare earth elements came into groundwater, caused waste of resources and toxicity to the organisms. This study aimed to find an efficient adsorption material to mitigate the above issue. Through doping polyvinyl alcohol with poly-γ-glutamic acid, an immobilised PSP gel particle was produced and had the adsorption rate of La3+ up to 97.10%. The factors including initial concentration of La3+ or Ce3+, adsorbent dosage, pH and temperature of the solution, which potentially affected the adsorption rate and were studied in batch mode. It was found that the optimum adsorption conditions were composed of 50 mg/L La3 VCe3+ of initial concentration, 600 mg/L (dry mass) biomass for adsorption, pH 6, temperature 30 ℃, 150 r/min rotational speed, and 1 h adsorption time. The selective adsorption of 15 different rare earth ions in mixed aqueous solu- tions were investigated. However, no significant selective differences were observed. Scanning electron microscopy showed that the morphological characteristic of the novel gel was its porous structure, while polyvinyl alcohol gel had a compact structure. Fourier transform infrared spectroscopy suggested that carboxyl groups in the poly-γ-glutamic acid might played a key role in the adsorption process. The adsorption mechanism forecasted to be cation exchange between -COOH and R3+. The adsorption kinetic and thermodynamic process for La3+ and Ce3+ was consistent with the pseudo-second-order equation and Langmuir adsorption isotherm model. It demonstrated that PSP gels particles were useful for removing REEs from wastewater.
Bibliography:11-2788/TF
With the exploitation of rare earth ore, more and more rare earth elements came into groundwater, caused waste of resources and toxicity to the organisms. This study aimed to find an efficient adsorption material to mitigate the above issue. Through doping polyvinyl alcohol with poly-γ-glutamic acid, an immobilised PSP gel particle was produced and had the adsorption rate of La3+ up to 97.10%. The factors including initial concentration of La3+ or Ce3+, adsorbent dosage, pH and temperature of the solution, which potentially affected the adsorption rate and were studied in batch mode. It was found that the optimum adsorption conditions were composed of 50 mg/L La3 VCe3+ of initial concentration, 600 mg/L (dry mass) biomass for adsorption, pH 6, temperature 30 ℃, 150 r/min rotational speed, and 1 h adsorption time. The selective adsorption of 15 different rare earth ions in mixed aqueous solu- tions were investigated. However, no significant selective differences were observed. Scanning electron microscopy showed that the morphological characteristic of the novel gel was its porous structure, while polyvinyl alcohol gel had a compact structure. Fourier transform infrared spectroscopy suggested that carboxyl groups in the poly-γ-glutamic acid might played a key role in the adsorption process. The adsorption mechanism forecasted to be cation exchange between -COOH and R3+. The adsorption kinetic and thermodynamic process for La3+ and Ce3+ was consistent with the pseudo-second-order equation and Langmuir adsorption isotherm model. It demonstrated that PSP gels particles were useful for removing REEs from wastewater.
adsorption; rare earth ion; poly-γ-glutamic acid; polyvinyl alcohol
ISSN:1002-0721
2509-4963
DOI:10.1016/S1002-0721(14)60500-7