Issue 52, 2020, Issue in Progress
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RSC Advances

New amino group functionalized porous carbon for strong chelation ability towards toxic heavy metals

Zakaria Anfar, ORCID logo *abc   Abdallah Amedlous,d   Mohammed Majdoub, ORCID logo d   Abdellah Ait El Fakir, ORCID logo ab   Mohamed Zbair, ORCID logo e   Hassan Ait Ahsaine, ORCID logo fg   Amane Jada*bc  and  Noureddine El Alema  

* Corresponding authors

a Laboratory of Materials & Environment (LME), Ibn Zohr University, Agadir, Morocco
E-mail: zakaria.anfar@uha.fr

b Institute of Materials Science of Mulhouse (IS2M-CNRS), Haute Alsace University (UHA), Mulhouse, France
E-mail: amane.jada@uha.fr

c Strasbourg University, Strasbourg, France

d Laboratory of Materials, Catalysis & Valorization of Natural Resources, Hassan II University, Casablanca, Morocco

e Laboratory of Catalysis & Materials Corrosion. Chouaib Doukkali University, El Jadida, Morocco

f Chemical and Biochemical Sciences (CBS), Mohamed VI Polytechnic University, Lot 660-Hay Moulay Rachid, Benguerir, Morocco

g Laboratoire de Chimie Appliquée des Matériaux, Centre des Sciences des Matériaux, Faculty of Sciences, Mohammed V University, Rabat, Morocco

Abstract

Herein, ethylenediamine functionalized porous carbon (PC-ED/1.5) was synthesized, then characterized by various methods and finally used as a functional material for Cu(II) and Pb(II) ion removal from water. XPS revealed the presence of numerous functionalities within the surface of PC including –NH and C–N–C groups. Furthermore, SBET, RS, XRD and FTIR analyses confirmed the changes implemented on the PC surface. Thereafter, a systematic study was implemented to analyze the interactions of the PC-ED/1.5 surface with Cu(II) and Pb(II) heavy metal ions. Hence, adsorption experiments showed that the PC-ED/1.5 exhibits maximum adsorption capacities of 123.45 mg g−1 and 140.84 mg g−1 for Cu(II) and Pb(II), respectively. Moreover, in situ electrostatic interactions occurring between the divalent cation and the PC-ED/1.5 functional groups was investigated. The mechanism involves chelation processes, electrostatic interactions and mechanical trapping of the metal ions in the adsorbent pores. Interestingly, a synergistic effect of the pores and surface active sites was observed. Finally, by using alginate bio-polymer we prepared membrane films of PC-ED/1.5 which showed long-term stability, regeneration capabilities and high mass recovery.

Graphical abstract: New amino group functionalized porous carbon for strong chelation ability towards toxic heavy metals

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Article information

DOI
https://doi.org/10.1039/D0RA05220E
Article type
Paper
Submitted
13 Jun 2020
Accepted
16 Aug 2020
First published
21 Aug 2020
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2020,10, 31087-31100

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New amino group functionalized porous carbon for strong chelation ability towards toxic heavy metals

Z. Anfar, A. Amedlous, M. Majdoub, A. A. El Fakir, M. Zbair, H. Ait Ahsaine, A. Jada and N. El Alem, RSC Adv., 2020, 10, 31087 DOI: 10.1039/D0RA05220E

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