Synthesis and characterization of zinc oxide/reduced graphene oxide hybrid photocatalysts for degradation of methyl orange

The recalcitrant nature and toxicity of organic pollutants in wastewater to mankind have led to extensive research on the usage of semiconductor based heterogeneous photocatalysis, in particular zinc oxide (ZnO). In this study, zinc oxide/reduced graphene oxide (ZnO/rGO) hybrid photocatalysts wit...

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Main Author: Yuen, Marilyn Sok Wen
Format: Thesis
Language:English
Published: 2017
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Online Access:http://psasir.upm.edu.my/id/eprint/67449/1/FS%202018%2021%20IR.pdf
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spelling my-upm-ir.674492019-03-14T02:53:45Z Synthesis and characterization of zinc oxide/reduced graphene oxide hybrid photocatalysts for degradation of methyl orange 2017-12 Yuen, Marilyn Sok Wen The recalcitrant nature and toxicity of organic pollutants in wastewater to mankind have led to extensive research on the usage of semiconductor based heterogeneous photocatalysis, in particular zinc oxide (ZnO). In this study, zinc oxide/reduced graphene oxide (ZnO/rGO) hybrid photocatalysts with varying graphene oxide (GO) to zinc salt volume ratio (0:100, 5:100, 10:100 and 20:100) were synthesized by precipitation method using zinc acetate dihydrate, ammonium hydroxide and graphene oxide (1 mg/mL) as precursors followed by thermal reduction. The product was denominated as ZnO, ZnO/rGO5, ZnO/rGO10 and ZnO/rGO20. The samples were characterized using X-ray powder diffraction (XRD), transmission electron microscopy (TEM), field emission scanning electron microscopy (FESEM), raman spectroscopy and particle size analysis (PSA). Surface area and porosity analysis and the band gap energy of the photocatalysts were determined by the Brunauer- Emmett-Teller method (BET) and UV-visible spectroscopic analysis. The introduction of graphene into ZnO was found to alter the physicochemical properties of the ZnO particles by lowering its band gap energy, reducing both particle and pore sizes and increasing its specific surface area and pore volume. The corresponding photocatalytic performance of the samples was then investigated by degrading methyl orange (MO) under UV light. The hybrid photocatalysts with ZnO particles decorated on the graphene sheet were found to achieve significant increased photocatalytic activity compared to ZnO with ZnO/rGO10 hybrid photocatalyst achieved fourfold enhancement in rate constant that of ZnO and about 40 % enhancement in the photocatalytic activity for the removal of 10 ppm MO within 3 hours. This was attributed to the presence of graphene that promotes efficient photoinduced charge separation by inhibiting the recombination of electron-hole pairs and enhanced dye adsorptivity on the catalyst’s surface via π-π interaction between MO and graphene sheet with delocalised conjugated π structure. Changes in textural properties and band gap energy of ZnO particles in the hybrid increased the light absorption and stronger adsorption of MO on the surface of the catalyst, thereby increasing its photocatalytic effciency. Increasing the GO content (ZnO/rGO20) however led to a decrement in photocatalytic activity by shielding the active sites on the surface of the catalyst, reducing light absorption. The MO degradation was at its optimum with 96.78% of 10 ppm MO removed within 3 hours using 0.5 g of ZnO/rGO10 hybrid photocatalyst, obeying the pseudo-first-order kinetics according to the Langmuir-Hinshelwood model. The reusability of the ZnO/rGO10 hybrid photocatalyst was confirmed by retaining 83% of activity after four consecutive cycles. Photodegradation Water - Purification - Photocatalysis Photocatalysis 2017-12 Thesis http://psasir.upm.edu.my/id/eprint/67449/ http://psasir.upm.edu.my/id/eprint/67449/1/FS%202018%2021%20IR.pdf text en public masters Universiti Putra Malaysia Photodegradation Water - Purification - Photocatalysis Photocatalysis
institution Universiti Putra Malaysia
collection PSAS Institutional Repository
language English
topic Photodegradation
Water - Purification - Photocatalysis
Photocatalysis
spellingShingle Photodegradation
Water - Purification - Photocatalysis
Photocatalysis
Yuen, Marilyn Sok Wen
Synthesis and characterization of zinc oxide/reduced graphene oxide hybrid photocatalysts for degradation of methyl orange
description The recalcitrant nature and toxicity of organic pollutants in wastewater to mankind have led to extensive research on the usage of semiconductor based heterogeneous photocatalysis, in particular zinc oxide (ZnO). In this study, zinc oxide/reduced graphene oxide (ZnO/rGO) hybrid photocatalysts with varying graphene oxide (GO) to zinc salt volume ratio (0:100, 5:100, 10:100 and 20:100) were synthesized by precipitation method using zinc acetate dihydrate, ammonium hydroxide and graphene oxide (1 mg/mL) as precursors followed by thermal reduction. The product was denominated as ZnO, ZnO/rGO5, ZnO/rGO10 and ZnO/rGO20. The samples were characterized using X-ray powder diffraction (XRD), transmission electron microscopy (TEM), field emission scanning electron microscopy (FESEM), raman spectroscopy and particle size analysis (PSA). Surface area and porosity analysis and the band gap energy of the photocatalysts were determined by the Brunauer- Emmett-Teller method (BET) and UV-visible spectroscopic analysis. The introduction of graphene into ZnO was found to alter the physicochemical properties of the ZnO particles by lowering its band gap energy, reducing both particle and pore sizes and increasing its specific surface area and pore volume. The corresponding photocatalytic performance of the samples was then investigated by degrading methyl orange (MO) under UV light. The hybrid photocatalysts with ZnO particles decorated on the graphene sheet were found to achieve significant increased photocatalytic activity compared to ZnO with ZnO/rGO10 hybrid photocatalyst achieved fourfold enhancement in rate constant that of ZnO and about 40 % enhancement in the photocatalytic activity for the removal of 10 ppm MO within 3 hours. This was attributed to the presence of graphene that promotes efficient photoinduced charge separation by inhibiting the recombination of electron-hole pairs and enhanced dye adsorptivity on the catalyst’s surface via π-π interaction between MO and graphene sheet with delocalised conjugated π structure. Changes in textural properties and band gap energy of ZnO particles in the hybrid increased the light absorption and stronger adsorption of MO on the surface of the catalyst, thereby increasing its photocatalytic effciency. Increasing the GO content (ZnO/rGO20) however led to a decrement in photocatalytic activity by shielding the active sites on the surface of the catalyst, reducing light absorption. The MO degradation was at its optimum with 96.78% of 10 ppm MO removed within 3 hours using 0.5 g of ZnO/rGO10 hybrid photocatalyst, obeying the pseudo-first-order kinetics according to the Langmuir-Hinshelwood model. The reusability of the ZnO/rGO10 hybrid photocatalyst was confirmed by retaining 83% of activity after four consecutive cycles.
format Thesis
qualification_level Master's degree
author Yuen, Marilyn Sok Wen
author_facet Yuen, Marilyn Sok Wen
author_sort Yuen, Marilyn Sok Wen
title Synthesis and characterization of zinc oxide/reduced graphene oxide hybrid photocatalysts for degradation of methyl orange
title_short Synthesis and characterization of zinc oxide/reduced graphene oxide hybrid photocatalysts for degradation of methyl orange
title_full Synthesis and characterization of zinc oxide/reduced graphene oxide hybrid photocatalysts for degradation of methyl orange
title_fullStr Synthesis and characterization of zinc oxide/reduced graphene oxide hybrid photocatalysts for degradation of methyl orange
title_full_unstemmed Synthesis and characterization of zinc oxide/reduced graphene oxide hybrid photocatalysts for degradation of methyl orange
title_sort synthesis and characterization of zinc oxide/reduced graphene oxide hybrid photocatalysts for degradation of methyl orange
granting_institution Universiti Putra Malaysia
publishDate 2017
url http://psasir.upm.edu.my/id/eprint/67449/1/FS%202018%2021%20IR.pdf
_version_ 1747812476196487168