Synthesis of stable flowerlike MgAl-LDH@MIL-88A and its adsorption performance for fluoride

Journal of Chemical Research-s Pub Date : 2022-11-01 DOI:10.1177/17475198221106680

Wenqing Ma, Yuantao Chen, Jianxian Qin, G. Hu, Cheng-Qun Xu

{"title":"Synthesis of stable flowerlike MgAl-LDH@MIL-88A and its adsorption performance for fluoride","authors":"Wenqing Ma, Yuantao Chen, Jianxian Qin, G. Hu, Cheng-Qun Xu","doi":"10.1177/17475198221106680","DOIUrl":null,"url":null,"abstract":"MgAl-LDH@MIL-88A as an effective adsorbent was successfully prepared by a simple stirring method in water bath through loading MIL-88A onto the surface of flowerlike MgAl-LDH, which was synthesized via solvothermal method. Interestingly, the results of characterizations showed that the MIL-88A could still grow, but extrude the brucite-like layers of MgAl-LDH. The influences of initial solution pH, contact time, temperature, and co-existing ions on the adsorption performance of MgAl-LDH@MIL-88A were studied systematically by batch static adsorption experiments. It was found that MgAl-LDH@MIL-88A represented the highest adsorption loading of fluoride (14.00 mg g−1) at initial pH 7.0 in 420 min. The uptake process was described appropriately by the pseudo-second-order, the Temkin and the Freundlich isotherm models. The thermodynamic parameters confirmed the endothermic and spontaneous nature of adsorption. MgAl-LDH@MIL-88A was the green adsorbent as the residual mental contents ([Mg2+] = 1.095 mg L−1, [Fe3+] = 0.007 mg L−1, [Al3+] = 0.076 mg L−1) after adsorption met the Chinese sanitary standard for drinking water (GB 5749-2006). The mechanism of fluoride removal by MgAl-LDH@MIL-88A involved the electrostatic interactions between Fe3+ of MIL-88A and fluoride, and ligand exchange among hydroxyl groups of MgAl-LDH, carboxylate groups of the C4H4O4 and fluoride.","PeriodicalId":15318,"journal":{"name":"Journal of Chemical Research-s","volume":"35 7","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2022-11-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Chemical Research-s","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1177/17475198221106680","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

MgAl-LDH@MIL-88A as an effective adsorbent was successfully prepared by a simple stirring method in water bath through loading MIL-88A onto the surface of flowerlike MgAl-LDH, which was synthesized via solvothermal method. Interestingly, the results of characterizations showed that the MIL-88A could still grow, but extrude the brucite-like layers of MgAl-LDH. The influences of initial solution pH, contact time, temperature, and co-existing ions on the adsorption performance of MgAl-LDH@MIL-88A were studied systematically by batch static adsorption experiments. It was found that MgAl-LDH@MIL-88A represented the highest adsorption loading of fluoride (14.00 mg g−1) at initial pH 7.0 in 420 min. The uptake process was described appropriately by the pseudo-second-order, the Temkin and the Freundlich isotherm models. The thermodynamic parameters confirmed the endothermic and spontaneous nature of adsorption. MgAl-LDH@MIL-88A was the green adsorbent as the residual mental contents ([Mg2+] = 1.095 mg L−1, [Fe3+] = 0.007 mg L−1, [Al3+] = 0.076 mg L−1) after adsorption met the Chinese sanitary standard for drinking water (GB 5749-2006). The mechanism of fluoride removal by MgAl-LDH@MIL-88A involved the electrostatic interactions between Fe3+ of MIL-88A and fluoride, and ligand exchange among hydroxyl groups of MgAl-LDH, carboxylate groups of the C4H4O4 and fluoride.

查看原文

微信好友朋友圈 QQ好友复制链接

本刊更多论文

稳定花状MgAl-LDH@MIL-88A的合成及其对氟的吸附性能

将MIL-88A加载到花状MgAl-LDH表面，通过溶剂热法合成，通过简单的水浴搅拌法制备了MgAl-LDH@MIL-88A作为有效的吸附剂。有趣的是，表征结果表明MIL-88A仍然可以生长，但挤出了类似水镁石的MgAl-LDH层。通过批量静态吸附实验，系统研究了初始溶液pH、接触时间、温度和共存离子对MgAl-LDH@MIL-88A吸附性能的影响。结果表明，在初始pH 7.0条件下，MgAl-LDH@MIL-88A在420 min内对氟的吸附量最高(14.00 mg g−1)。拟二阶模型、Temkin模型和Freundlich等温模型恰当地描述了吸收过程。热力学参数证实了吸附的吸热和自发性质。吸附后的重金属残留量([Mg2+] = 1.095 mg L−1，[Fe3+] = 0.007 mg L−1，[Al3+] = 0.076 mg L−1)符合中国饮用水卫生标准(GB 5749-2006)， MgAl-LDH@MIL-88A为绿色吸附剂。MgAl-LDH@MIL-88A除氟机理涉及MIL-88A的Fe3+与氟化物的静电相互作用，以及mal - ldh的羟基、C4H4O4的羧酸基与氟化物之间的配体交换。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文去求助

来源期刊

Journal of Chemical Research-s 化学科学, 有机化学, 有机合成

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： The Journal of Chemical Research is a peer reviewed journal that publishes full-length review and research papers in all branches of experimental chemistry. The journal fills a niche by also publishing short papers, a format which favours particular types of work, e.g. the scope of new reagents or methodology, and the elucidation of the structure of novel compounds. Though welcome, short papers should not result in fragmentation of publication, they should describe a completed piece of work. The Journal is not intended as a vehicle for preliminary publications. The work must meet all the normal criteria for acceptance as regards scientific standards. Papers that contain extensive biological results or material relating to other areas of science may be diverted to more appropriate specialist journals. Areas of coverage include: Organic Chemistry; Inorganic Chemistry; Materials Chemistry; Crystallography; Computational Chemistry.