Enhanced sunlight-driven photocatalytic performance of Ag–ZnO hybrid nanoflowers

Enhanced sunlight-driven photocatalytic performance of Ag–ZnO hybrid nanoflowers

Photocatalytic materials such as Ag-coated ZnO nanoflowers, pristine ZnO nanoflowers and ZnO nanorods were synthesized by template-assisted method for the treatment of industrial waste water through photocatalysis. Electropolishing and anodization lead to the formation of alumina template. After tha...

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Published in:Applied nanoscience Vol. 10; no. 1; pp. 187 - 197
Main Authors: Shahid, Sammia, Fatima, Urooj, Rasheed, Muhammad Zaheer, Asghar, Muhammad Nadeem, Zaman, Sabah, Sarwar, M. N.
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-01-2020
Springer Nature B.V
Subjects:
Aluminum oxide
Catalytic activity
Chemistry and Materials Science
Coating
Diffraction patterns
Electron microscopes
Energy dispersive X ray spectroscopy
Grain size
Hydrothermal treatment
Industrial wastes
Materials Science
Membrane Biology
Methylene blue
Morphology
Nanochemistry
Nanorods
Nanotechnology
Nanotechnology and Microengineering
Original Article
Photocatalysis
Photodegradation
Silver
Sunlight
Synthesis
Waste treatment
Wastewater treatment
X-ray diffraction
Zinc oxide
Hydrothermal synthesis
Pristine ZnO nanoflowers
Photocatalysis
Anodization
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Abstract Photocatalytic materials such as Ag-coated ZnO nanoflowers, pristine ZnO nanoflowers and ZnO nanorods were synthesized by template-assisted method for the treatment of industrial waste water through photocatalysis. Electropolishing and anodization lead to the formation of alumina template. After that, hydrothermal treatment was carried out for the growth of ZnO nanoflowers and nanorods on the template. The morphology of synthesized samples was investigated by scanning electron microscope, X-ray diffraction patterns and energy-dispersive X-ray spectroscopy. XRD patterns of samples clearly indicate the well crystalline structure of synthesized materials. The presence of Ag in Ag-coated ZnO nanoflowers was confirmed by EDS spectral analysis and X-ray diffraction patterns. Grain size was found to be in the range of 10–25 nm as calculated by Scherer’s formula from XRD patterns. The sunlight-driven photocatalytic activity of Ag-coated ZnO nanoflowers, ZnO nanoflowers and ZnO nanorods was investigated and compared with each other. In addition, the stability and recovery of photocatalyst were also checked. Photocatalytic degradation experiment results indicated that Ag-coated ZnO nanoflowers had highest photocatalytic activity towards methylene blue dye.
AbstractList Photocatalytic materials such as Ag-coated ZnO nanoflowers, pristine ZnO nanoflowers and ZnO nanorods were synthesized by template-assisted method for the treatment of industrial waste water through photocatalysis. Electropolishing and anodization lead to the formation of alumina template. After that, hydrothermal treatment was carried out for the growth of ZnO nanoflowers and nanorods on the template. The morphology of synthesized samples was investigated by scanning electron microscope, X-ray diffraction patterns and energy-dispersive X-ray spectroscopy. XRD patterns of samples clearly indicate the well crystalline structure of synthesized materials. The presence of Ag in Ag-coated ZnO nanoflowers was confirmed by EDS spectral analysis and X-ray diffraction patterns. Grain size was found to be in the range of 10–25 nm as calculated by Scherer’s formula from XRD patterns. The sunlight-driven photocatalytic activity of Ag-coated ZnO nanoflowers, ZnO nanoflowers and ZnO nanorods was investigated and compared with each other. In addition, the stability and recovery of photocatalyst were also checked. Photocatalytic degradation experiment results indicated that Ag-coated ZnO nanoflowers had highest photocatalytic activity towards methylene blue dye.
Photocatalytic materials such as Ag-coated ZnO nanoflowers, pristine ZnO nanoflowers and ZnO nanorods were synthesized by template-assisted method for the treatment of industrial waste water through photocatalysis. Electropolishing and anodization lead to the formation of alumina template. After that, hydrothermal treatment was carried out for the growth of ZnO nanoflowers and nanorods on the template. The morphology of synthesized samples was investigated by scanning electron microscope, X-ray diffraction patterns and energy-dispersive X-ray spectroscopy. XRD patterns of samples clearly indicate the well crystalline structure of synthesized materials. The presence of Ag in Ag-coated ZnO nanoflowers was confirmed by EDS spectral analysis and X-ray diffraction patterns. Grain size was found to be in the range of 10–25 nm as calculated by Scherer’s formula from XRD patterns. The sunlight-driven photocatalytic activity of Ag-coated ZnO nanoflowers, ZnO nanoflowers and ZnO nanorods was investigated and compared with each other. In addition, the stability and recovery of photocatalyst were also checked. Photocatalytic degradation experiment results indicated that Ag-coated ZnO nanoflowers had highest photocatalytic activity towards methylene blue dye.
Author Zaman, Sabah
Rasheed, Muhammad Zaheer
Shahid, Sammia
Fatima, Urooj
Asghar, Muhammad Nadeem
Sarwar, M. N.
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  organization: Ibn-E-Sina Institute of Technology
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Keywords Hydrothermal synthesis
Pristine ZnO nanoflowers
Photocatalysis
Anodization
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Snippet Photocatalytic materials such as Ag-coated ZnO nanoflowers, pristine ZnO nanoflowers and ZnO nanorods were synthesized by template-assisted method for the...
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StartPage 187
SubjectTerms Aluminum oxide
Catalytic activity
Chemistry and Materials Science
Coating
Diffraction patterns
Electron microscopes
Energy dispersive X ray spectroscopy
Grain size
Hydrothermal treatment
Industrial wastes
Materials Science
Membrane Biology
Methylene blue
Morphology
Nanochemistry
Nanorods
Nanotechnology
Nanotechnology and Microengineering
Original Article
Photocatalysis
Photodegradation
Silver
Sunlight
Synthesis
Waste treatment
Wastewater treatment
X-ray diffraction
Zinc oxide
Title Enhanced sunlight-driven photocatalytic performance of Ag–ZnO hybrid nanoflowers
URI https://link.springer.com/article/10.1007/s13204-019-01076-4
https://www.proquest.com/docview/2236353539
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