Removal of Mercury Ions from Aqueous Solutions by Crosslinked Chitosan-based Adsorbents: A Mini Review

Dan Zhang; Grégorio Crini; Eric Lichtfouse; Baker Rhimi; Chuanyi Wang

doi:10.1002/tcr.202000073

Removal of Mercury Ions from Aqueous Solutions by Crosslinked Chitosan-based Adsorbents: A Mini Review

Dan Zhang
, Grégorio Crini
, Eric Lichtfouse
, Baker Rhimi
, Chuanyi Wang

School of Energy and Power Engineering

Shaanxi University of Science and Technology
Laboratoire Chrono-Environnement
Aix-Marseille Université

Research output: Contribution to journal › Article › peer-review

35 Scopus citations

Abstract

Abatement of mercury emissions in air and waters has become a global challenge due to the toxicity of mercury species for life, yet actual remediation techniques are limited. In particular, adsorption of mercury ions onto solids is widely used but most adsorption techniques are not specific, and in turn, removal efficiency is lower. Adsorbents developed so far include activated carbon, clay, bentonite, cellulose and chitosan. Chitosan derivatives have recently attracted research attention for water purification because their molecular frames contain a large amount of −NH₂ and −OH groups that can chelate with metal ions specifically. This manuscript reviews recent advances in chitosan-based adsorbents designed to remove mercury ions from wastewater. Focus is placed on their design, synthesis, characterization, adsorption properties, adsorption mechanisms and applications.

Original language	English
Pages (from-to)	1220-1234
Number of pages	15
Journal	Chemical Record
Volume	20
Issue number	10
DOIs	https://doi.org/10.1002/tcr.202000073
State	Published - 1 Oct 2020

Keywords

Adsorption mechanism
Chitosan-based adsorbents
Environmental remediation
Mercury ions removal

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10.1002/tcr.202000073

Cite this

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abstract = "Abatement of mercury emissions in air and waters has become a global challenge due to the toxicity of mercury species for life, yet actual remediation techniques are limited. In particular, adsorption of mercury ions onto solids is widely used but most adsorption techniques are not specific, and in turn, removal efficiency is lower. Adsorbents developed so far include activated carbon, clay, bentonite, cellulose and chitosan. Chitosan derivatives have recently attracted research attention for water purification because their molecular frames contain a large amount of −NH2 and −OH groups that can chelate with metal ions specifically. This manuscript reviews recent advances in chitosan-based adsorbents designed to remove mercury ions from wastewater. Focus is placed on their design, synthesis, characterization, adsorption properties, adsorption mechanisms and applications.",

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AU - Rhimi, Baker

AU - Wang, Chuanyi

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AB - Abatement of mercury emissions in air and waters has become a global challenge due to the toxicity of mercury species for life, yet actual remediation techniques are limited. In particular, adsorption of mercury ions onto solids is widely used but most adsorption techniques are not specific, and in turn, removal efficiency is lower. Adsorbents developed so far include activated carbon, clay, bentonite, cellulose and chitosan. Chitosan derivatives have recently attracted research attention for water purification because their molecular frames contain a large amount of −NH2 and −OH groups that can chelate with metal ions specifically. This manuscript reviews recent advances in chitosan-based adsorbents designed to remove mercury ions from wastewater. Focus is placed on their design, synthesis, characterization, adsorption properties, adsorption mechanisms and applications.

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KW - Mercury ions removal

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Removal of Mercury Ions from Aqueous Solutions by Crosslinked Chitosan-based Adsorbents: A Mini Review

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Keywords

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