Photocatalytic reduction of Cr(VI) by using stacked ZnS layers of ZnS(en)x complex

Photoreduction of Cr(VI) over wire, sheet or flakes of ZnS(en)0.5 hybrid semiconductor in the presence of hole scavenger (citric acid). [Display omitted] •ZnS(en)x hybrid semiconductor with low number of layer structural was obtained.•ZnS(en)x complex of flakes morphology was obtained with CS2 sourc...

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Bibliographic Details
Published in:Journal of environmental chemical engineering 2015-12, Vol.3 (4), p.3048-3054
Main Authors: Hernández-Gordillo, Agileo, García-Mendoza, C., Alvarez-Lemus, M.A., Gómez, Ricardo
Format: Article
Language:English
Subjects:
Cr(VI) reduction
Flakes-like morphology
ZnS layers
ZnS(en)0.5 hybrid
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Summary:Photoreduction of Cr(VI) over wire, sheet or flakes of ZnS(en)0.5 hybrid semiconductor in the presence of hole scavenger (citric acid). [Display omitted] •ZnS(en)x hybrid semiconductor with low number of layer structural was obtained.•ZnS(en)x complex of flakes morphology was obtained with CS2 source.•Cr(VI) photoreduction was achieved with flakes hybrid photocatalyst.•The protonation of ZnS(en)x surface enhanced the adsorption of Cr(VI) species. We investigated the photoreduction of hexavalent chromium in the absence or presence of citric acid using ZnS(en)x complex photocatalyst of different intercalated layers of ZnS and of different morphology; wires, sheets and flakes. The hybrid semiconductors were prepared by precipitation method with a mixture of ethylenediamine-H2O solution varying the zinc precursor and the sulfur source. The flake-like of ZnS(en)x hybrid with low layer-by-layers structure prepared from zinc acetate and carbon sulfide provides of enhanced photocatalytic properties that allows an efficient electron transfer process in the photoreduction of Cr(VI) in the presence of citric acid in acid media. The highest photoactivity of the flake hybrid was considered in function of the number of layers of ZnS stacked and of its high degree of protonation. The possible mechanism of photoreduction of chromic acid (HCrO4−) species absorbed on protonated surface was discussed.
ISSN:2213-3437
2213-3437
DOI:10.1016/j.jece.2015.02.028