Multifunctional ZnO materials prepared by a versatile green carbohydrate-assisted combustion method for environmental remediation applications

Multifunctional ZnO materials prepared by a versatile green carbohydrate-assisted combustion method for environmental remediation applications

Nanosized ZnO has been prepared following a non-polluting, straightforward, and flexible combustion synthesis method, using as biofuels starch and cellulose, and as zinc source nitrate and acetate. While the crystallite size and the surface area of the ZnO materials are to a certain extent sensible...

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Bibliographic Details
Published in:Ceramics international Vol. 45; no. 2; pp. 2295 - 2302
Main Authors: Ene, Cristian D., Patrinoiu, Greta, Munteanu, Cornel, Ene, Ramona, Chifiriuc, Mariana Carmen, Carp, Oana
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-02-2019
Subjects:
Antimicrobial efficiency
Carbohydrate
Defect chemistry
Photocatalytic activity
Zinc oxide
Photocatalytic activity
Zinc oxide
Carbohydrate
Defect chemistry
Antimicrobial efficiency
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Summary:Nanosized ZnO has been prepared following a non-polluting, straightforward, and flexible combustion synthesis method, using as biofuels starch and cellulose, and as zinc source nitrate and acetate. While the crystallite size and the surface area of the ZnO materials are to a certain extent sensible of the post-thermal processing temperature, the defect chemistry is dependent on reductant/oxidant ratio. The obtained ZnO materials, particularly the oxides obtained from carbohydrate-nitrate precursors present considerable photodegradation activity upon two hazardous EDCs phenolic wastes and excellent antimicrobial efficiency against planktonic Gram negative and positive strains. Both results can be explained by an optimum defects configuration of these oxides. The photocatalytic and biocidal efficiency associated with the easy and complete recovery from the treated wastewaters proves the potential toward environmental remediation applications of these “two in one“ formulations.
ISSN:0272-8842
1873-3956
DOI:10.1016/j.ceramint.2018.10.144