Enhanced removal of uranium(VI) from aqueous solution by a novel Mg-MOF-74-derived porous MgO/carbon adsorbent

[Display omitted] The elimination and safe treatment of U(VI) from radioactive wastewater has attracted widespread attention with the development of the nuclear power industry. In this work, a MgO/carbon adsorbent was successfully prepared by one-step Mg-MOF-74 pyrolyzation and used for U(VI) remova...

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Published inJournal of colloid and interface science Vol. 537; pp. A1 - A10
Main Authors Lv, Zhimin, Wang, Haiyan, Chen, Changlun, Yang, Shimin, Chen, Lei, Alsaedi, Ahmed, Hayat, Tasawar
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.03.2019
Subjects
adsorbents
Adsorption
aqueous solutions
carbon
electrostatic interactions
magnesium oxide
MgO/carbon
nuclear power industry
Porous structure
surface area
U(VI)
uranium
wastewater
X-ray photoelectron spectroscopy
zeta potential
Porous structure
U(VI)
MgO/carbon
Adsorption
Online AccessGet full text
ISSN0021-9797
1095-7103
1095-7103
DOI10.1016/j.jcis.2018.11.062

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Abstract [Display omitted] The elimination and safe treatment of U(VI) from radioactive wastewater has attracted widespread attention with the development of the nuclear power industry. In this work, a MgO/carbon adsorbent was successfully prepared by one-step Mg-MOF-74 pyrolyzation and used for U(VI) removal from aqueous solution. Characteristic results indicated that the as-prepared composite was a typical porous structure. The adsorption performance of the MgO/carbon towards U(VI) was studied by batch experiments. The results indicated that the MgO/carbon can rapidly and effectively remove U(VI) and showed an excellent adsorption capacity (777.51 mg/g), which is much higher than other reported adsorbent materials. In addition, the intraparticle diffusion model provides a good explanation for each adsorption process. The adsorption capacity of the MgO/carbon towards U(VI) is greatly promoted by the large specific surface area and well-defined porous structure. Based on the zeta potential and XPS analysis, the possible mechanism for U(VI) removal involved the surface complexation and electrostatic attraction. The results indicate that the MgO/carbon can be regarded as an efficient adsorbent for U(VI) removal from wastewater, which has a very broad application prospect.
AbstractList The elimination and safe treatment of U(VI) from radioactive wastewater has attracted widespread attention with the development of the nuclear power industry. In this work, a MgO/carbon adsorbent was successfully prepared by one-step Mg-MOF-74 pyrolyzation and used for U(VI) removal from aqueous solution. Characteristic results indicated that the as-prepared composite was a typical porous structure. The adsorption performance of the MgO/carbon towards U(VI) was studied by batch experiments. The results indicated that the MgO/carbon can rapidly and effectively remove U(VI) and showed an excellent adsorption capacity (777.51 mg/g), which is much higher than other reported adsorbent materials. In addition, the intraparticle diffusion model provides a good explanation for each adsorption process. The adsorption capacity of the MgO/carbon towards U(VI) is greatly promoted by the large specific surface area and well-defined porous structure. Based on the zeta potential and XPS analysis, the possible mechanism for U(VI) removal involved the surface complexation and electrostatic attraction. The results indicate that the MgO/carbon can be regarded as an efficient adsorbent for U(VI) removal from wastewater, which has a very broad application prospect.The elimination and safe treatment of U(VI) from radioactive wastewater has attracted widespread attention with the development of the nuclear power industry. In this work, a MgO/carbon adsorbent was successfully prepared by one-step Mg-MOF-74 pyrolyzation and used for U(VI) removal from aqueous solution. Characteristic results indicated that the as-prepared composite was a typical porous structure. The adsorption performance of the MgO/carbon towards U(VI) was studied by batch experiments. The results indicated that the MgO/carbon can rapidly and effectively remove U(VI) and showed an excellent adsorption capacity (777.51 mg/g), which is much higher than other reported adsorbent materials. In addition, the intraparticle diffusion model provides a good explanation for each adsorption process. The adsorption capacity of the MgO/carbon towards U(VI) is greatly promoted by the large specific surface area and well-defined porous structure. Based on the zeta potential and XPS analysis, the possible mechanism for U(VI) removal involved the surface complexation and electrostatic attraction. The results indicate that the MgO/carbon can be regarded as an efficient adsorbent for U(VI) removal from wastewater, which has a very broad application prospect.
The elimination and safe treatment of U(VI) from radioactive wastewater has attracted widespread attention with the development of the nuclear power industry. In this work, a MgO/carbon adsorbent was successfully prepared by one-step Mg-MOF-74 pyrolyzation and used for U(VI) removal from aqueous solution. Characteristic results indicated that the as-prepared composite was a typical porous structure. The adsorption performance of the MgO/carbon towards U(VI) was studied by batch experiments. The results indicated that the MgO/carbon can rapidly and effectively remove U(VI) and showed an excellent adsorption capacity (777.51 mg/g), which is much higher than other reported adsorbent materials. In addition, the intraparticle diffusion model provides a good explanation for each adsorption process. The adsorption capacity of the MgO/carbon towards U(VI) is greatly promoted by the large specific surface area and well-defined porous structure. Based on the zeta potential and XPS analysis, the possible mechanism for U(VI) removal involved the surface complexation and electrostatic attraction. The results indicate that the MgO/carbon can be regarded as an efficient adsorbent for U(VI) removal from wastewater, which has a very broad application prospect.
[Display omitted] The elimination and safe treatment of U(VI) from radioactive wastewater has attracted widespread attention with the development of the nuclear power industry. In this work, a MgO/carbon adsorbent was successfully prepared by one-step Mg-MOF-74 pyrolyzation and used for U(VI) removal from aqueous solution. Characteristic results indicated that the as-prepared composite was a typical porous structure. The adsorption performance of the MgO/carbon towards U(VI) was studied by batch experiments. The results indicated that the MgO/carbon can rapidly and effectively remove U(VI) and showed an excellent adsorption capacity (777.51 mg/g), which is much higher than other reported adsorbent materials. In addition, the intraparticle diffusion model provides a good explanation for each adsorption process. The adsorption capacity of the MgO/carbon towards U(VI) is greatly promoted by the large specific surface area and well-defined porous structure. Based on the zeta potential and XPS analysis, the possible mechanism for U(VI) removal involved the surface complexation and electrostatic attraction. The results indicate that the MgO/carbon can be regarded as an efficient adsorbent for U(VI) removal from wastewater, which has a very broad application prospect.
Author Wang, Haiyan
Lv, Zhimin
Chen, Lei
Chen, Changlun
Yang, Shimin
Alsaedi, Ahmed
Hayat, Tasawar
Author_xml – sequence: 1
  givenname: Zhimin
  surname: Lv
  fullname: Lv, Zhimin
  organization: College of Environmental Science and Engineering, North China Electric Power University, Beijing 102206, PR China
– sequence: 2
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  fullname: Wang, Haiyan
  organization: Institute of Physical Science and Information Technology, Anhui University, Hefei 230601, Anhui, PR China
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  orcidid: 0000-0003-1636-2412
  surname: Chen
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  email: clchen@ipp.ac.cn
  organization: College of Environmental Science and Engineering, North China Electric Power University, Beijing 102206, PR China
– sequence: 4
  givenname: Shimin
  surname: Yang
  fullname: Yang, Shimin
  organization: School of Chemistry and Chemical Engineering, Shandong University of Technology, Zibo 255049, Shandong, PR China
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  givenname: Ahmed
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  fullname: Alsaedi, Ahmed
  organization: NAAM Research Group, Faculty of Science, King Abdulaziz University, Jeddah 21589, Saudi Arabia
– sequence: 7
  givenname: Tasawar
  surname: Hayat
  fullname: Hayat, Tasawar
  organization: NAAM Research Group, Faculty of Science, King Abdulaziz University, Jeddah 21589, Saudi Arabia
BackLink https://www.ncbi.nlm.nih.gov/pubmed/30459090$$D View this record in MEDLINE/PubMed
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IEDL.DBID AIKHN
ISSN 0021-9797
1095-7103
IngestDate Thu Sep 04 17:11:12 EDT 2025
Thu Sep 04 21:42:34 EDT 2025
Wed Feb 19 02:33:19 EST 2025
Tue Jul 01 01:18:38 EDT 2025
Thu Apr 24 23:03:26 EDT 2025
Fri Feb 23 02:48:26 EST 2024
IsPeerReviewed true
IsScholarly true
Keywords Porous structure
U(VI)
MgO/carbon
Adsorption
Language English
License Copyright © 2018 Elsevier Inc. All rights reserved.
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MergedId FETCHMERGED-LOGICAL-c426t-4b8ab09782ff5142663cf8b2ddcdf8d5acf9a4ebb7576ef98d5ba17b5d9989373
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  year: 2019
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  day: 01
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PublicationTitle Journal of colloid and interface science
PublicationTitleAlternate J Colloid Interface Sci
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Publisher Elsevier Inc
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Snippet [Display omitted] The elimination and safe treatment of U(VI) from radioactive wastewater has attracted widespread attention with the development of the...
The elimination and safe treatment of U(VI) from radioactive wastewater has attracted widespread attention with the development of the nuclear power industry....
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SubjectTerms adsorbents
Adsorption
aqueous solutions
carbon
electrostatic interactions
magnesium oxide
MgO/carbon
nuclear power industry
Porous structure
surface area
U(VI)
uranium
wastewater
X-ray photoelectron spectroscopy
zeta potential
Title Enhanced removal of uranium(VI) from aqueous solution by a novel Mg-MOF-74-derived porous MgO/carbon adsorbent
URI https://dx.doi.org/10.1016/j.jcis.2018.11.062
https://www.ncbi.nlm.nih.gov/pubmed/30459090
https://www.proquest.com/docview/2136556610
https://www.proquest.com/docview/2189538782
Volume 537
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