A synergistic strategy to remove hazardous water pollutants by mimicking burdock flower morphology structures of iron oxide phases

Artificially mimicking structures/morphologies available in the nature to develop multifunctional materials for catalysis is receiving greater attention. Particularly, the burdock flower morphology, which has a hollow-globe surrounded by spiky sheets, represents a multifunctional structure helpful i...

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Bibliographic Details
Published in:Chemosphere (Oxford) 2022-01, Vol.286, p.131789-131789, Article 131789
Main Authors: Koli, Rohit R., Deshpande, Nishad G., Kim, Dong Su, Cho, Hyung Koun
Format: Article
Language:English
Subjects:
Biomimetic burdock flower
Dual filter
Dye adsorbent
Iron oxide
Photocatalyst
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Summary:Artificially mimicking structures/morphologies available in the nature to develop multifunctional materials for catalysis is receiving greater attention. Particularly, the burdock flower morphology, which has a hollow-globe surrounded by spiky sheets, represents a multifunctional structure helpful in adsorption as well as intercalation of molecules. Given this, we have strategically developed a robust microwave (MW) bubble-template process to achieve highly uniform α-Fe2O3 and carbon-enriched Fe3O4 (Fe3O4@C) phases resembling the characteristics of spiky hollow burdock morphologies. The utilization of the MW bubble-templates as a pretreatment to the iron-based precursor solution helps in producing hollowed open-space ferrous glycolate burdock flower morphology with rapid production rate and without any addition of extra agents. Such burdock flower structures remain intact even after annealing in air/N2 ambiance providing highly photoactive α-Fe2O3 or magnetic Fe3O4@C, respectively. Utilizing the hollow burdock flower structures together with the individual photo/magnetic properties of iron oxide phases, a dual-layer filter was designed to remove hazardous dye molecules from water, which efficiently photodegraded (99.2 %) in natural sunlight as well as showed excellent adsorption (99.7 %) within minutes. Comparatively, a lower catalytic activity using simple iron oxide nanoparticles, closed, and faded burdock morphologies were seen. Hence, the high catalytic activity in removing the dye molecules, retention of structural phases after repeated use, and strong durability were a result of the synergetic effect of photo/magnetic properties, activated surface/spiky open burdock structure. Polymerized growth of FG nanoflakes on MW-induced glycol bubble templates.Their smooth transitions towards α-Fe2O3 (photocatalyst) and Fe3O4@C (efficient adsorbent) hollowmicrourchins under suitable annealing conditions. Inset: (Right) shows structural/morphological transformation of product with concentration/MW-dose. [Display omitted]
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2021.131789