Effect of calcination temperature on the photodegradation efficiency of Ni/ZnO composite in removal of organic dye

ZnO based composite is an attractive UV light driven semiconductor photocatalyst to degrade organic compounds attributed to its wide bandgap (3.37 eV). In this study, Ni/ZnO composites were synthesized via solution precipitation method. The composites were calcinated at various temperature, i.e. fro...

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Main Authors: Thein, Myo Thuya, Pung, Swee-Yong, Aziz, Azizan, Lockman, Zainovia, Itoh, Mitsuru
Format: Conference Proceeding
Language:English
Subjects:
Chemical precipitation
Chemical synthesis
Composite materials
Dyes
Efficiency
Emission analysis
Energy dispersive X ray spectroscopy
Field emission microscopy
Organic compounds
Photocatalysts
Photodegradation
Photoluminescence
Photovoltaic cells
Roasting
Rods
Tips
Ultraviolet radiation
Wurtzite
X-ray diffraction
Zinc oxide
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Pung, Swee-Yong
Aziz, Azizan
Lockman, Zainovia
Itoh, Mitsuru
description ZnO based composite is an attractive UV light driven semiconductor photocatalyst to degrade organic compounds attributed to its wide bandgap (3.37 eV). In this study, Ni/ZnO composites were synthesized via solution precipitation method. The composites were calcinated at various temperature, i.e. from 250 °C to 700 °C and subsequently annealed at 500°C in reductive environment (hydrogen atmosphere). The diffraction peaks of all samples could be indexed to the hexagonal wurtzite ZnO. No diffraction peaks from Ni could be observed in all samples, suggesting that the amount of Ni in the composites were below the detection limit of X-ray diffraction (XRD). The field emission scanning electron microscope (FESEM) images confirm that all samples were rod-like structure with hexagonal tips. In addition, small Ni particles were homogeneously deposited on the surface of ZnO rods. This observation is supported by energy dispersive X-ray spectroscopy (EDX) analysis, showing present of Zn, O and Ni elements. It is noted that ZnO rods coupled with Ni experienced quenching of visible emission and enhancing of UV emission in room temperature photoluminescence (RTPL) analysis. The photodegradation efficiency of Ni/ZnO rods was improved when a higher calcination temperature was used. The removal of RhB dye under UV light (352 nm) by these photocatalysts followed pseudo first-order kinetic reaction. The Ni/ZnO composites synthesized at calcination temperature of 500 °C demonstrated the highest photodegradation efficiency of 37 % and the largest rate constant of 0.0053 min−1 after 75 min UV irradiation.
doi_str_mv 10.1063/1.4993331
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In this study, Ni/ZnO composites were synthesized via solution precipitation method. The composites were calcinated at various temperature, i.e. from 250 °C to 700 °C and subsequently annealed at 500°C in reductive environment (hydrogen atmosphere). The diffraction peaks of all samples could be indexed to the hexagonal wurtzite ZnO. No diffraction peaks from Ni could be observed in all samples, suggesting that the amount of Ni in the composites were below the detection limit of X-ray diffraction (XRD). The field emission scanning electron microscope (FESEM) images confirm that all samples were rod-like structure with hexagonal tips. In addition, small Ni particles were homogeneously deposited on the surface of ZnO rods. This observation is supported by energy dispersive X-ray spectroscopy (EDX) analysis, showing present of Zn, O and Ni elements. It is noted that ZnO rods coupled with Ni experienced quenching of visible emission and enhancing of UV emission in room temperature photoluminescence (RTPL) analysis. The photodegradation efficiency of Ni/ZnO rods was improved when a higher calcination temperature was used. The removal of RhB dye under UV light (352 nm) by these photocatalysts followed pseudo first-order kinetic reaction. The Ni/ZnO composites synthesized at calcination temperature of 500 °C demonstrated the highest photodegradation efficiency of 37 % and the largest rate constant of 0.0053 min−1 after 75 min UV irradiation.</description><identifier>ISSN: 0094-243X</identifier><identifier>EISSN: 1551-7616</identifier><identifier>DOI: 10.1063/1.4993331</identifier><identifier>CODEN: APCPCS</identifier><language>eng</language><publisher>Melville: American Institute of Physics</publisher><subject>Chemical precipitation ; Chemical synthesis ; Composite materials ; Dyes ; Efficiency ; Emission analysis ; Energy dispersive X ray spectroscopy ; Field emission microscopy ; Organic compounds ; Photocatalysts ; Photodegradation ; Photoluminescence ; Photovoltaic cells ; Roasting ; Rods ; Tips ; Ultraviolet radiation ; Wurtzite ; X-ray diffraction ; Zinc oxide</subject><ispartof>AIP conference proceedings, 2017, Vol.1865 (1)</ispartof><rights>Author(s)</rights><rights>2017 Author(s). 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In this study, Ni/ZnO composites were synthesized via solution precipitation method. The composites were calcinated at various temperature, i.e. from 250 °C to 700 °C and subsequently annealed at 500°C in reductive environment (hydrogen atmosphere). The diffraction peaks of all samples could be indexed to the hexagonal wurtzite ZnO. No diffraction peaks from Ni could be observed in all samples, suggesting that the amount of Ni in the composites were below the detection limit of X-ray diffraction (XRD). The field emission scanning electron microscope (FESEM) images confirm that all samples were rod-like structure with hexagonal tips. In addition, small Ni particles were homogeneously deposited on the surface of ZnO rods. This observation is supported by energy dispersive X-ray spectroscopy (EDX) analysis, showing present of Zn, O and Ni elements. It is noted that ZnO rods coupled with Ni experienced quenching of visible emission and enhancing of UV emission in room temperature photoluminescence (RTPL) analysis. The photodegradation efficiency of Ni/ZnO rods was improved when a higher calcination temperature was used. The removal of RhB dye under UV light (352 nm) by these photocatalysts followed pseudo first-order kinetic reaction. 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It is noted that ZnO rods coupled with Ni experienced quenching of visible emission and enhancing of UV emission in room temperature photoluminescence (RTPL) analysis. The photodegradation efficiency of Ni/ZnO rods was improved when a higher calcination temperature was used. The removal of RhB dye under UV light (352 nm) by these photocatalysts followed pseudo first-order kinetic reaction. The Ni/ZnO composites synthesized at calcination temperature of 500 °C demonstrated the highest photodegradation efficiency of 37 % and the largest rate constant of 0.0053 min−1 after 75 min UV irradiation.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/1.4993331</doi><tpages>6</tpages></addata></record>
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source American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list)
subjects Chemical precipitation
Chemical synthesis
Composite materials
Dyes
Efficiency
Emission analysis
Energy dispersive X ray spectroscopy
Field emission microscopy
Organic compounds
Photocatalysts
Photodegradation
Photoluminescence
Photovoltaic cells
Roasting
Rods
Tips
Ultraviolet radiation
Wurtzite
X-ray diffraction
Zinc oxide
title Effect of calcination temperature on the photodegradation efficiency of Ni/ZnO composite in removal of organic dye
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