Preparation of silver/silver bromide/titanium dioxide/graphene oxide nanocomposite for photocatalytic degradation of 4-chlorophenol

A ultaviolet–visible light responded photocatalytic nanocomposite, silver/silver bromide/titanium dioxide, supported on graphene oxide (GO; silver/silver bromide/titanium dioxide/GO) was fabricated via a layer intercalation method using n-butylamine, cetyltrimethyl ammonium bromide, titanium dioxide...

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Published inNanomaterials and nanotechnology Vol. 7; p. 184798041772404
Main Authors Xu, Zhixiang, Zhang, Jianyuan, Liu, Haiqin, Kuang, Pengpeng, Wang, Shuang, Fu, Xiaoqi
Format Journal Article
LanguageEnglish
Published London, England SAGE Publications 22.08.2017
Hindawi Limited
Subjects
Ammonium bromides
Catalytic activity
Chemical industry
Chlorophenol
Electromagnetic absorption
Electron transfer
Graphene
Light
Light irradiation
Nanocomposites
Nanoparticles
Photocatalysis
Photodegradation
Rate constants
Titanium
Titanium dioxide
graphene oxide
Nanocomposite
plasmon hot electron
photocatalytic degradation
4-chlorophenol
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Summary:A ultaviolet–visible light responded photocatalytic nanocomposite, silver/silver bromide/titanium dioxide, supported on graphene oxide (GO; silver/silver bromide/titanium dioxide/GO) was fabricated via a layer intercalation method using n-butylamine, cetyltrimethyl ammonium bromide, titanium dioxide and silver/silver bromide-intercalated GO successively. The resultant silver/silver bromide/titanium dioxide/GO exhibited much stronger visible light absorption and enhanced photocatalytic efficiency than titanium dioxide/GO and titanium dioxide. Furthermore, the degradation efficiency of silver/silver bromide/titanium dioxide/GO was improved when irradiated under light without the ultaviolet cut filter. The apparent degradation rate constants, k, for silver/silver bromide/titanium dioxide/GO, titanium dioxide/GO and titanium dioxide are 0.5192, 0.2273 and 0.0627 h−1. A possible photocatalytic degradation mechanism for degradation of 4-chlorophenol by silver/silver bromide/titanium dioxide/GO under irradiation with/without the ultaviolet cut filter was proposed. The factors including the visible light response from silver bromide, surface plasmon ‘hot’ electron effect from silver nanoparticles and efficient electron transfer among silver, silver bromide, titanium dioxide and GO are contributed to enhance the photocatalytic activity under visible light irradiation, while the additional factor of ultaviolet light response from titanium dioxide plays an important role under light irradiation without the ultaviolet cut filter. The resultant silver/silver bromide/titanium dioxide/GO possessed a good photochemical stability and reusability.
ISSN:1847-9804
1847-9804
DOI:10.1177/1847980417724046