Modification of naturally abundant resources for remediation of potentially toxic elements: A review

Han, Bing; Weatherley, Anthony J.; Mumford, Kathryn; Bolan, Nanthi; He, Ji-Zheng; Stevens, Geoffrey W.; Chen, Deli

Title: Modification of naturally abundant resources for remediation of potentially toxic elements: A review
Creator: Han, Bing; Weatherley, Anthony J.; Mumford, Kathryn; Bolan, Nanthi; He, Ji-Zheng; Stevens, Geoffrey W.; Chen, Deli
Relation: Journal of Hazardous Materials Vol. 421, Issue 5 January 2022, no. 126755
Publisher Link: http://dx.doi.org/10.1016/j.jhazmat.2021.126755
Publisher: Elsevier
Resource Type: journal article
Date: 2021
Description: Water and soil contamination due to potentially toxic elements (PTEs) represents a critical threat to the global ecosystem and human health. Naturally abundant resources have significant advantages as adsorbent materials for environmental remediation over manufactured materials such as nanostructured materials and activated carbons. These advantages include cost-effectiveness, eco-friendliness, sustainability, and nontoxicity. In this review, we firstly compare the characteristics of representative adsorbent materials including bentonite, zeolite, biochar, biomass, and effective modification methods that are frequently used to enhance their adsorption capacity and kinetics. Following this, the adsorption pathways and sites are outlined at an atomic level, and an in-depth understanding of the structure-property relationships are provided based on surface functional groups. Finally, the challenges and perspectives of some emerging naturally abundant resources such as lignite are examined. Although both unamended and modified naturally abundant resources face challenges associated with their adsorption performance, cost performance, energy consumption, and secondary pollution, these can be tackled by using advanced techniques such as tailored modification, formulated mixing and reorganization of these materials. Recent studies on adsorbent materials provide a strong foundation for the remediation of PTEs in soil and water. We speculate that the pursuit of effective modification strategies will generate remediation processes of PTEs better suited to a wider variety of practical application conditions.
Subject: potentially toxic elements (PTEs); removal; wastewater treatment; soil remediation; adsorption; eco-friendly; SDG 3; SDG 6; SDG 7; Sustainable Development Goals
Identifier: http://hdl.handle.net/1959.13/1460614
Identifier: uon:46013
Identifier: ISSN:0304-3894
Language: eng
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