Removal of Cu(II) Contamination from Aqueous Solution by Ethylenediamine@β-Zeolite Composite

Removal of Cu(II) Contamination from Aqueous Solution by Ethylenediamine@β-Zeolite Composite

The low cost β-zeolite and ethylenediamine modified β-zeolite (EDA@β-zeolite) were prepared by self-assembly method and used for Cu(II) removal from contaminated aqueous solution. Removal ability of β-zeolite toward Cu(II) was greatly improved after ethylenediamine (EDA) modification, the removal pe...

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Main Authors: Peng Liu, Hui Ruan, Tiantian Li, Jiaqi Chen, Fuqiu Ma, Duoqiang Pan, Wangsuo Wu
Format: Article
Language:English
Published: MDPI AG 2021-02-01
Series:Molecules
Subjects:
adsorption
Cu(II) contamination
Ethylenediamine
β-zeolite
Online Access:https://www.mdpi.com/1420-3049/26/4/978
id doaj-2fdd90dbfccd4f23b435efdc22da3a95
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spelling doaj-2fdd90dbfccd4f23b435efdc22da3a952021-02-13T00:03:23ZengMDPI AGMolecules1420-30492021-02-012697897810.3390/molecules26040978Removal of Cu(II) Contamination from Aqueous Solution by Ethylenediamine@β-Zeolite CompositePeng Liu0Hui Ruan1Tiantian Li2Jiaqi Chen3Fuqiu Ma4Duoqiang Pan5Wangsuo Wu6College of Nuclear Science and Technology, Harbin Engineering University, Harbin 150001, ChinaCollege of Nuclear Science and Technology, Harbin Engineering University, Harbin 150001, ChinaCollege of Nuclear Science and Technology, Harbin Engineering University, Harbin 150001, ChinaCollege of Nuclear Science and Technology, Harbin Engineering University, Harbin 150001, ChinaCollege of Nuclear Science and Technology, Harbin Engineering University, Harbin 150001, ChinaRadiochemistry and Nuclear Environment Laboratory, School of Nuclear Science and Technology, Lanzhou University, Lanzhou 730000, ChinaRadiochemistry and Nuclear Environment Laboratory, School of Nuclear Science and Technology, Lanzhou University, Lanzhou 730000, ChinaThe low cost β-zeolite and ethylenediamine modified β-zeolite (EDA@β-zeolite) were prepared by self-assembly method and used for Cu(II) removal from contaminated aqueous solution. Removal ability of β-zeolite toward Cu(II) was greatly improved after ethylenediamine (EDA) modification, the removal performance was greatly affected by environmental conditions. XPS results illustrated that the amide group played important role in the removal process by forming complexes with Cu(II). The EDA@β-zeolite showed desirable recycling ability. The finding herein suggested that the proposed composite is a promising and suitable candidate for the removal of Cu(II) from contaminated natural wastewater and aquifer.https://www.mdpi.com/1420-3049/26/4/978adsorptionCu(II) contaminationEthylenediamineβ-zeolite
collection DOAJ
language English
format Article
sources DOAJ
author Peng Liu
Hui Ruan
Tiantian Li
Jiaqi Chen
Fuqiu Ma
Duoqiang Pan
Wangsuo Wu
spellingShingle Peng Liu
Hui Ruan
Tiantian Li
Jiaqi Chen
Fuqiu Ma
Duoqiang Pan
Wangsuo Wu
Removal of Cu(II) Contamination from Aqueous Solution by Ethylenediamine@β-Zeolite Composite
Molecules
adsorption
Cu(II) contamination
Ethylenediamine
β-zeolite
author_facet Peng Liu
Hui Ruan
Tiantian Li
Jiaqi Chen
Fuqiu Ma
Duoqiang Pan
Wangsuo Wu
author_sort Peng Liu
title Removal of Cu(II) Contamination from Aqueous Solution by Ethylenediamine@β-Zeolite Composite
title_short Removal of Cu(II) Contamination from Aqueous Solution by Ethylenediamine@β-Zeolite Composite
title_full Removal of Cu(II) Contamination from Aqueous Solution by Ethylenediamine@β-Zeolite Composite
title_fullStr Removal of Cu(II) Contamination from Aqueous Solution by Ethylenediamine@β-Zeolite Composite
title_full_unstemmed Removal of Cu(II) Contamination from Aqueous Solution by Ethylenediamine@β-Zeolite Composite
title_sort removal of cu(ii) contamination from aqueous solution by ethylenediamine@β-zeolite composite
publisher MDPI AG
series Molecules
issn 1420-3049
publishDate 2021-02-01
description The low cost β-zeolite and ethylenediamine modified β-zeolite (EDA@β-zeolite) were prepared by self-assembly method and used for Cu(II) removal from contaminated aqueous solution. Removal ability of β-zeolite toward Cu(II) was greatly improved after ethylenediamine (EDA) modification, the removal performance was greatly affected by environmental conditions. XPS results illustrated that the amide group played important role in the removal process by forming complexes with Cu(II). The EDA@β-zeolite showed desirable recycling ability. The finding herein suggested that the proposed composite is a promising and suitable candidate for the removal of Cu(II) from contaminated natural wastewater and aquifer.
topic adsorption
Cu(II) contamination
Ethylenediamine
β-zeolite
url https://www.mdpi.com/1420-3049/26/4/978
work_keys_str_mv AT pengliu removalofcuiicontaminationfromaqueoussolutionbyethylenediaminebzeolitecomposite
AT huiruan removalofcuiicontaminationfromaqueoussolutionbyethylenediaminebzeolitecomposite
AT tiantianli removalofcuiicontaminationfromaqueoussolutionbyethylenediaminebzeolitecomposite
AT jiaqichen removalofcuiicontaminationfromaqueoussolutionbyethylenediaminebzeolitecomposite
AT fuqiuma removalofcuiicontaminationfromaqueoussolutionbyethylenediaminebzeolitecomposite
AT duoqiangpan removalofcuiicontaminationfromaqueoussolutionbyethylenediaminebzeolitecomposite
AT wangsuowu removalofcuiicontaminationfromaqueoussolutionbyethylenediaminebzeolitecomposite
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