Relationships of ternary activities for the enhanced Cr(VI) removal by coupling nanoscale zerovalent iron with sulfidation and carboxymethyl cellulose

Relationships of ternary activities for the enhanced Cr(VI) removal by coupling nanoscale zerovalent iron with sulfidation and carboxymethyl cellulose

Nanoscale zerovalent iron (nZVI) has been extensively applied in water pollution control. However, the reactivity of nZVI toward contaminants is mainly limited by its corrosion and agglomeration. In this study, the nZVI modified by sulfidation coupled with carboxymethyl cellulose (CMC) (C-S-nZVI) wa...

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Bibliographic Details
Published in:Environmental research Vol. 263; no. Pt 3; p. 120274
Main Authors: Wang, Wenhao, Wang, Xingyu, Wu, Xuechen, Zhang, Jinhua, Qin, Hejie, Li, Jinxiang
Format: Journal Article
Language:English
Published: Elsevier Inc 15-12-2024
Subjects:
Adsorption and reduction
Correlation analysis
Nanoscale zerovalent iron
Sedimentation
Sulfidation
Adsorption and reduction
Sulfidation
Nanoscale zerovalent iron
Correlation analysis
Sedimentation
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Summary:Nanoscale zerovalent iron (nZVI) has been extensively applied in water pollution control. However, the reactivity of nZVI toward contaminants is mainly limited by its corrosion and agglomeration. In this study, the nZVI modified by sulfidation coupled with carboxymethyl cellulose (CMC) (C-S-nZVI) was synthesized and characterized by TEM and electrochemical techniques. Taking Cr(VI) as the contaminant, it was found that the sulfidation could couple with CMC modification to not only enhance the reactivity of nZVI toward Cr(VI), but also regulate the sedimentation activity and corrosion activity of nZVI in water. Particularly, the optimal kobs (0.0816 min−1) obtained by the C-S-nZVIone-0.16 (i.e., one-step sulfidation and its S/Fe molar ratio was 0.16) was approximately 27.2 times higher than that by the nZVI (0.0030 min−1). Moreover, based on the correlation analysis of the ternary activities, this study confirmed that the reactivity of C-S-nZVI toward Cr(VI) was negatively correlated with its sedimentation activity (slope = −0.7623, R = 0.59) and corrosion activity (slope = −0.0171, R = 0.56), respectively. XPS and TEM results further revealed that CMC could couple with iron sulfides (FeSx) to enhance the mass transfer of Cr(VI) toward nZVI and subsequent electron transfer from Fe0 core to out, ultimately improving the reduction of Cr(VI) by nZVI. Overall, this study introduced a new evaluation method based on the ternary activity of nZVI, providing theoretical support for the practical application of nZVI-based technology. [Display omitted] •Modified nZVI by sulfidation and CMC was synthesized and characterized.•The reaction rate of C-S-nZVI with Cr(VI) was 27.2 times higher than nZVI.•The negative relation of kobs-Cr to kobs-corr by nZVI-modified materials was found.•There existed a negative link of kobs-Cr to kobs-sed by nZVI-modified materials.•The enhanced reaction mechanisms by C-S-nZVI with Cr(VI) were elucidated.
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ISSN:0013-9351
1096-0953
1096-0953
DOI:10.1016/j.envres.2024.120274