|Table of Contents|

Study on Degradation of Rhodamine by Graphite Oxide-Ag3PO4(PDF)

《南京师大学报(自然科学版)》[ISSN:1001-4616/CN:32-1239/N]

Issue:
2018年03期
Page:
65-
Research Field:
·化学·
Publishing date:

Info

Title:
Study on Degradation of Rhodamine by Graphite Oxide-Ag3PO4
Author(s):
Zhang Jie1Yang Zhonglin2Huang Heyong1Meng Xiangtian1Huang Yubiao1
(1.Center of Analysis and Testing,Nanjing Normal University,Nanjing 210023,China)(2.Research Institute of Nanjing Chemical Industry Co.,Ltd SINOPEC,Nanjing 210048,China)
Keywords:
graphite oxideAg3PO4visible lightrhodamine B
PACS:
O643.3
DOI:
10.3969/j.issn.1001-4616.2018.03.011
Abstract:
The objective of this investigation was to synthesize the graphite oxide-Ag3PO4(Ag3PO4-GO)composite and study its degradation properties of rhodamine(RhB). Therefore,a series of visible-light-driven GO-Ag3PO4catalysts with different GO contents,mainly including Ag3PO4-GO(0.5%),Ag3PO4-GO(1%),Ag3PO4-GO(1.5%)and Ag3PO4-GO(2%),was successfully synthesized and applied for degradation of RhB. The results showed that the band gap was approximately 2.39 eV,which was not affected by the addition of GO. Furthermore,the catalyst,Ag3PO4-GO(1%),showed the best photocatalytic activity with a pH range from 5 to 7. Additionally,the degradation rates correlated negatively with the initial concentrations of RhB. Ag+on the GO surfaces might capture photoelectron e-,which would favor Ag3PO4 to separate e- and h+ under visible light irradiation,and significantly enhanced the photocatalytic activity and stability.

References:

[1] ZHENG Y M,YUNUS R F,NANAYAKKARA K G N,et al. Electrochemical decoloration of synthetic wastewater containing rhodamine:behaviors and mechanism[J]. Industrial and engineering chemistry research,2012,51(17),5953-5960.
[2]AND T A,MADRAS G. Photocatalytic degradation of rhodamine dyes with nano-TiO2[J]. Industrial and engineering chemistry research,2007,46(1):1-7.
[3]戴兴春,徐亚同,黄民生. 污染环境中微生物修复的几种办法[J]. 上海化工,2004,29(1):10-12.
[4]裴红玉,李云青,祁凡,等. 磷酸银系复合光催化剂研究进展[J]. 广州化工,2016,44(22):3-5.
[5]DHANABAL R,CHITHAMBARARAJ A,VELMATHI S,et al. Visible light driven degradation of methylene blue dye using Ag3PO4[J]. Journal of environmental chemical engineering,2015,3(3):1872-1881.
[6]BI Y P,HU H Y,OUYANG S X,et al. Photocatalytic and photoelectric properties of cubic Ag3PO4 sub-microcrystals with sharp corners and edges.[J]. Cheminform,2012,43(29):3748-3750.
[7]JIAO Z B,ZHANG Y,YU H C,et al. Concave trisoctahedral Ag3PO4 microcrystals with high-index facets and enhanced photocatalytic properties[J]. Chemical communications,2013,49(6):636-638.
[8]BI Y P,HU H Y,JIAO Z B,et al. Two-dimensional dendritic Ag3PO4 nanostructures and their photocatalytic properties[J]. Physical chemistry chemical physics pccp,2012,14(42):14486-14488.
[9]MA X G,YAN J,LIU N,et al. Effect of relaxation on the energetics and electronic structure of clean Ag3PO4(111)surface[J]. Journal of semiconductors,2016,37(3):26-31.
[10]NOVOSELOV K S,GEIM A K,MOROZOV S V,et al. Electric field effect in atomically thin carbon films.[J]. Science,2004,306(5696):666-669.
[11]GE M. Photodegradation of rhodamine B and methyl orange by Ag3PO4 catalyst under visible light irradiation[J]. Chinese journal of catalysis,2014,35(8):1410-1417.
[12]CHEN X J,DAI Y Z,WANG X Y,et al. Synthesis and characterization of Ag3PO4 immobilized with graphene oxide(GO)for enhanced photocatalytic activity and stability over 2,4-dichlorophenol under visible light irradiation[J]. Journal of hazardous materials,2015,292:9-18.
[13]TALYZIN A V,MERCIER G,KLECHIKOV A,et al. Brodie vs Hummers graphite oxides for preparation of multi-layered materials[J]. Carbon,2017,115:430-440.
[14]余长林,魏龙福,李家德,等. GO/Ag3PO4复合光催化剂的制备、表征及光催化性能[J]. 物理化学学报,2015,31(10):1932-1938.
[15]LIU B,FANG Y L,LI Z Y,et al. Visible-light nanostructured photocatalysts—a review.[J]. Journal of nanoscience and nanotechnology,2015,15(2):889-920.
[16]YAHIA I S,JILANI A,ABDEL-WAHAB M S,et al. The photocatalytic activity of graphene oxide/Ag3PO4,nano-composite:loading effect[J]. Optik-international journal for light and electron optics,2016,127(22):10746-10757.
[17]LIANG Q H,SHI Y,MA W J,et al. Enhanced photocatalytic activity and structural stability by hybridizing Ag3PO4 nanospheres with graphene oxide sheets[J]. Physical chemistry chemical physics pccp,2012,14(45):15657-15665.
[18]吕英英,顾晓天,周家宏,等. N、S共掺杂型二氧化钛光催化降解有机污染物的性能研究[J]. 南京师大学报(自然科学版),2008,31(4):69-73.
[19]WANG P Q,CHEN T,YU B Y,et al. Tollen’s-assisted preparation of Ag3PO4/GO photocatalyst with enhanced photocatalytic activity and stability[J]. Journal of the Taiwan institute of chemical engineers,2016,62:267-274.

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Last Update: 2018-11-19