Cellulose-based materials in the treatment of wastewater containing heavy metal pollution: Recent advances in quantitative adsorption mechanisms

Cellulose-based materials in the treatment of wastewater containing heavy metal pollution: Recent advances in quantitative adsorption mechanisms

For the treatment of heavy metal (HM)-polluted wastewater, an increasing number of novel and practical adsorbents have been developed and applied, especially cellulose-based materials, which have received increasing attention from researchers in recent years. This research has mainly focused on the...

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Bibliographic Details
Published in:Industrial crops and products Vol. 217; p. 118825
Main Authors: Meng, Peipei, Zhang, Tao, Su, Yaoming, Peng, Dan, Zhou, Qianya, Zeng, Hao, Yu, Huajian, Lun, Lehao, Zhang, Na, Zhang, Lijuan, Zheng, Liuchun
Format: Journal Article
Language:English
Published: Elsevier B.V 01-10-2024
Subjects:
Adsorption
Calculation
Cellulose
Density functional theory
Heavy metal
Mechanism
Density functional theory
Calculation
Adsorption
Mechanism
Cellulose
Heavy metal
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Summary:For the treatment of heavy metal (HM)-polluted wastewater, an increasing number of novel and practical adsorbents have been developed and applied, especially cellulose-based materials, which have received increasing attention from researchers in recent years. This research has mainly focused on the influencing factors, thermodynamics, and kinetics of HM ion removal, and the associated mechanisms have been investigated theoretically. Density functional theory (DFT) is typically combined with experimental research to develop new materials and investigate their applications, and considerable progress has been achieved. Parameters calculated by DFT, such as the adsorption or interaction energy (Eads), frontier molecular orbitals (FMOs), molecular electrostatic potential (MEP), natural bond orbitals (NBOs), electrostatic potential (ESP), and Mulliken population, play a crucial role in the study of adsorption behaviour. In this paper, the developments in DFT calculations of the properties of cellulose-based materials, as well as the applications and technical factors related to the removal of HM ions and HM composite pollutants, are reviewed. Furthermore, our team has focused on DFT approaches such as the sequential investigation of adsorption structure → functional groups → key elements. This sequential approach was used to assess the removal of HM ions and complexation–decomplexation–recomplexation processes related to the adsorption of HM composite pollutants to provide insights and methods supporting the development and substantive application of cellulose-based materials. [Display omitted] •Cellulose-based materials showed excellent performance in HMs-contained wastewater.•DFT calculations played a key role in quantitative analysis of adsorption mechanism.•DFT calculations can predict and provide key non-experimental information.•Our research explored a set of DFT calculations routes suitable for HMs removal.•DFT can reveal the mechanism such as complexation-discomplexation-recomplexation.
ISSN:0926-6690
1872-633X
DOI:10.1016/j.indcrop.2024.118825