不同合成过程对溶胶-凝胶法制备的ZnO/Ag纳米复合材料光催化性能的影响

doi:10.11896/j.issn.1005-023X.2017.024.024

《材料导报》期刊社

2017, Vol. 31

Issue (24): 120-124 https://doi.org/10.11896/j.issn.1005-023X.2017.024.024

材料研究

不同合成过程对溶胶-凝胶法制备的ZnO/Ag纳米复合材料光催化性能的影响

陈雨,余飞,刘禹彤,徐小楠,张秋平,袁欢,徐明

西南民族大学电气信息工程学院,信息材料四川省重点实验室,成都 610041

Effects of Different Synthesis Process on Photocatalytic Properties of ZnO/Ag Nanocomposites Prepared by Sol-Gel Method

CHEN Yu, YU Fei, LIU Yutong, XU Xiaonan, ZHANG Qiuping, YUAN Huan, XU Ming

College of Electrical &Information Engineering, Key Lab of Information Materials of Sichuan Province, Southwest University for Nationalities, Chengdu 610041

摘要
参考文献
相关文章
推荐阅读
Metrics

下载:

全文 ( PDF ) ( 761KB )
输出: BibTeX | EndNote (RIS)

摘要以乙酸锌、硝酸银为前驱体,二乙醇胺作为稳定剂,利用溶胶-凝胶法分别采用一步法和两步法制备得到ZnO以及ZnO/Ag纳米复合粉体。所有ZnO/Ag复合物中Ag的含量均为3%(摩尔分数)。对所制备样品的结构和光学性质通过XRD、SEM、TEM、XPS、PL、UV-vis进行了表征,进而以甲基橙为模拟污染物进行了光催化测试。结果表明,不同方法制备得到的ZnO/Ag纳米粉体晶粒均匀,无明显团聚现象,面心立方结构的金属Ag吸附在纤锌矿结构的ZnO表面形成异质结。与纯ZnO相比,掺Ag极大地改善了样品在紫外光下的光催化活性。对不同合成工艺的比较表明,用溶胶-凝胶一步法制备的ZnO/Ag复合物的光催化活性最高,经紫外光照射70 min可完全降解甲基橙。

	服务
	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	陈雨
	余飞
	刘禹彤
	徐小楠
	张秋平
	袁欢
	徐明

关键词: ZnO/Ag复合物溶胶-凝胶法光催化一步法

Abstract: ZnO and ZnO/Ag hybrid nanoparticles as photocatalyst were synthesized by different process of sol-gel method, with zinc acetate, silver nitrate as precursor and diethanolamine as stablizer. The content of Ag in all ZnO/Ag hybrid was 3 mol%. The structure and optical properties of samples were characterized by XRD, SEM, TEM, XPS, PL, UV-vis techniques, the photocatalytic activity of these samples was studied by analyzing the degradation of methyl orange. The results showed that the ZnO/Ag nanopowders prepared by different process dispersed uniformly and no obvious agglomeration phenomenon was observed. The face centered cubic metallic silver was attached on wurtzite ZnO to form heterojunction. Compared with pure ZnO, the photocatalytic activity of Ag loaded ZnO have largely improved. Among all samples, ZnO/Ag hybrid synthesized by one-step method had best photocatalytic activity with methyl orange entirely degraded under ultraviolet light irradiation for 70 minutes.

Key words: ZnO/Ag hybrid sol-gel method photocatalysis one-step method

出版日期: 2017-12-25 发布日期: 2018-05-08

ZTFLH:

O614.24+

基金资助: 四川省学术带头人培养基金项目(26727502);西南民族大学研究生创新型科研项目(CX2017SZ034)

通讯作者: 徐明:男,博士,教授,主要从事氧化物功能材料研究 E-mail:hsuming_2001@aliyun.com

作者简介: 陈雨:女,1992年生,硕士研究生,主要研究方向为ZnO半导体光催化材料 E-mail:2323554314@qq.com

引用本文:

陈雨,余飞,刘禹彤,徐小楠,张秋平,袁欢,徐明. 不同合成过程对溶胶-凝胶法制备的ZnO/Ag纳米复合材料光催化性能的影响[J]. 《材料导报》期刊社, 2017, 31(24): 120-124.
CHEN Yu, YU Fei, LIU Yutong, XU Xiaonan, ZHANG Qiuping, YUAN Huan, XU Ming. Effects of Different Synthesis Process on Photocatalytic Properties of ZnO/Ag Nanocomposites Prepared by Sol-Gel Method. Materials Reports, 2017, 31(24): 120-124.

链接本文:

http://www.mater-rep.com/CN/10.11896/j.issn.1005-023X.2017.024.024 或 http://www.mater-rep.com/CN/Y2017/V31/I24/120

1 Chen X, Mao S S. Titanium dioxide nanomaterials: Synthesis, properties, modifications, and applications[J]. Chem Rev, 2007,38(41):2892.
2 Shinde S S, Shinde P S, Bhosale C H, et al. Zinc oxide mediated heterogeneous photocatalytic degradation of organic species under solar radiation[J]. J Photochem Photobiol B Biol, 2011,104(3):425.
3 Zhang Q, Ma Y, Deng Q. Structural and optical properties of Sb-doped ZnO powders synthesized by hydrothermal method[J]. J Chongqing University of Technology (Natural Science), 2012,26(8):61(in Chinese).
张起, 马勇, 邓泉. 水热法制备ZnO∶Sb粉体结构及光学性质[J]. 重庆理工大学学报(自然科学版), 2012,26(8):61.
4 Aleksandra B Djuriic＇, Xinyi Chen, Yu Hang Leung, et al. ZnO nanostructures: Growth, properties and applications[J]. J Mater Chem, 2012,22(14):6526.
5 Ding P, Pan X H, Ye Z Z. Electrical and optical properties of Sb-doped ZnO thin films[J]. J Chongqing University of Technology (Natural Science), 2010,24(5):50(in Chinese).
丁萍, 潘新花, 叶志镇. Sb掺杂ZnO薄膜电学、光学性能研究[J]. 重庆理工大学学报(自然科学版), 2010,24(5):50.
6 Tahir M N, Natalio F, Cambaz M A, et al. Controlled synthesis of linear and branched Au@ZnO hybrid nanocrystals and their photocatalytic properties[J]. Nanoscale, 2013,5(20):9944.
7 Lu Y H, Xu M, Xu L X, et al. Enhanced ultraviolet photocatalytic activity of Ag/ZnO nanoparticles synthesized by modified polymer-network gelmethod[J]. J Nanopart Res, 2015,17:350.
8 Xu X N, Zhang Q P, Zhang Q, et al. Effects of different annealing temperature on photocatalytic properties of ZnO nanoparticles synthesized by sol-gel method[J]. Mater Rev: Res, 2016,30(2):18(in Chinese).
徐小楠, 张秋平, 张琴, 等. 不同煅烧温度对溶胶-凝胶合成的纳米ZnO光催化效果的影响[J]. 材料导报:研究篇, 2016,30(2):18.
9 Georgekutty R, Seery M K, Pillai S C. A highly efficient Ag-ZnO photocatalyst: Synthesis, properties, and mechanism[J]. J Phy Chem C, 2008,112(35):13563.
10Xu J, Chang Y, Zhang Y, et al. Effect of silver ions on the structure of ZnO and photocatalytic performance of Ag/ZnO composites[J]. Appl Surf Sci, 2008,255(5):1996.
11Tan T, Li Y, Liu Y, et al. Two-step preparation of Ag/tetrapod-like ZnO with photocatalytic activity by thermal evaporation and sputtering[J]. Mater Chem Phys, 2008,111(2):305.
12Akpan U G, Hameed B H. The advancements in sol-gel method of doped-TiO₂, photocatalysts[J]. Appl Catal A General, 2010,375(1):1.
13Wang S F, Yang H, Xian T. A novel visible-light-driven semiconductor photocatalyst: Nano-yttrium manganite[J]. Chin J Catal, 2011,32(7):1199(in Chinese).
王仕发, 杨华, 县涛. 新型半导体可见光催化剂纳米锰酸钇[J]. 催化学报, 2011,32(7):1199.
14Dodd A C, Mckinley A J, Saunders M, et al. Effect of particle size on the photocatalytic activity of nanoparticulate zinc oxide[J]. J Nanopart Res, 2006,8(1):43.
15Zheng Y, Zheng L, Zhan Y, et al. Ag/ZnO heterostructure nanocrystals: Synthesis, characterization, and photocatalysis[J]. Inorg Chem, 2007,46(17):6980.
16Chen C, Zheng Y, Zhan Y, et al. Enhanced Raman scattering and photocatalytic activity of Ag/ZnO heterojunction nanocrystals[J]. Dalton Trans, 2011,40(37):9566.
17Zhang X, Qin J, Xue Y, et al. Effect of aspect ratio and surface defects on the photocatalytic activity of ZnO nanorods[J]. Sci Rep, 2014,4:4596.
18Wang J, Wang Z, Huang B, et al. Oxygen vacancy induced band-gap narrowing and enhanced visible light photocatalytic activity of ZnO[J]. ACS Appl Mater Interfaces, 2012,4(8):4024.
19Jing L, Qu Y, Wang B, et al. Review of photoluminescence performance of nano-sized semiconductor materials and its relationships with photocatalytic activity[J]. Solar Energy Mater Solar Cells, 2006,90(12):1773.20Sagar P, Shishodia P K, Mehra R M, et al. Photoluminescence and absorption in sol-gel-derived ZnO films[J]. J Luminescence, 2007,126(2):800.
21Fujihara S, Ogawa Y, Kasai A. Tunable visible photoluminescence from ZnO thin films through Mg-doping and annealing[J]. Cheminform, 2004, 35(40):2965
22Lu W, Gao S, Wang J. One-pot synthesis of Ag/ZnO self-assembled 3D hollow microspheres with enhanced photocatalytic performance[J]. J Phys Chem C, 2008,112(43):16792.
23Xie W, Li Y, Sun W, et al. Surface modification of ZnO with Ag improves its photocatalytic efficiency and photostability[J]. J Photochem Photobiol A Chem, 2010,216(2-3):149.
24Raula M, Rashid M H, Paira T K, et al. Ascorbate-assisted growth of hierarchical ZnO nanostructures: Sphere, spindle, and flower and their catalytic properties[J]. Langmuir, 2010,26(11):8769.
25Li S, Ma Z, Zhang J, et al. A comparative study of photocatalytic degradation of phenol of TiO₂ and ZnO in the presence of manganese dioxides[J]. Catal Today, 2008,139(1-2):109.

[1]	郭继鹏, 王敬锋, 林琳, 何丹农. 不同形貌的g-C₃N₄的制备研究进展[J]. 材料导报, 2019, 33(z1): 1-7.
[2]	冉涛, 张骞, 黎邦鑫, 刘旸, 李筠连. g-C₃N₄/泡沫镍整体式光催化剂的构建及光氧化去除NO[J]. 材料导报, 2019, 33(z1): 337-342.
[3]	张燕. 一步法制备无表面修饰剂花状金纳米颗粒及其表面增强拉曼散射性能研究[J]. 材料导报, 2019, 33(z1): 314-317.
[4]	肖健, 刘锦平, 刘先斌, 邱贵宝. 泡沫钛表面改性研究进展[J]. 材料导报, 2019, 33(9): 1558-1566.
[5]	侯珊, 刘向春. 新型光催化剂钨酸锌的制备及性能改性研究进展[J]. 材料导报, 2019, 33(9): 1541-1549.
[6]	熊德华, 邓砚文, 杜子娟, 张晴晴, 李宏. CuMnO₂/TiO₂复合光催化剂增效催化降解亚甲基蓝[J]. 材料导报, 2019, 33(8): 1262-1267.
[7]	张嘉羲, 袁欢, 刘禹彤, 陈雨, 徐明. Fe掺杂的Ag-ZnO纳米复合材料的合成及光催化性能[J]. 材料导报, 2019, 33(6): 941-946.
[8]	占昌朝, 曹小华, 金文雄, 叶志刚, 谢宝华, 徐建兴, 周荣辉. 以水杨酸为模板分子的Nd掺杂分子印迹TiO₂的制备及光催化性能[J]. 材料导报, 2019, 33(6): 947-953.
[9]	吕斌, 程坤, 高党鸽, 马建中. 中空结构纳米TiO₂微球的可控制备[J]. 材料导报, 2019, 33(5): 770-776.
[10]	王永强, 陈曦, 刘昕, 刘芳, 赵朝成, 姜珊, 吴鹏伟. MWCNT/Bi₂WO₆复合光催化剂的制备及其活性研究[J]. 材料导报, 2019, 33(2): 211-214.
[11]	周亚,李萍,左迎峰,袁光明,李贤军,吴义强. 无机质增强木材研究进展与发展趋势[J]. 材料导报, 2019, 33(17): 2989-2996.
[12]	涂盛辉, 徐翀, 戴策, 林立, 彭海龙, 杜军. 双金属纳米Ag/Cu负载TiO₂的制备及光催化制氢活性[J]. 材料导报, 2019, 33(16): 2633-2637.
[13]	张化福,沙浩,吴志明,蒋亚东,王操,孙艳,景强. 太赫兹波段二氧化钒薄膜的研究进展[J]. 材料导报, 2019, 33(15): 2513-2523.
[14]	黄宁岸, 赵梓俨, 邹彦昭, 周莹. 表面处理对Pt/Al₂O₃光催化氧化NO的影响[J]. 材料导报, 2019, 33(12): 1921-1925.
[15]	安伟佳, 田玲玉, 芮玉兰, 高雅萌, 崔文权. Ag@AgCl/Bi₂WO₆复合光催化剂的制备及可见光催化性能[J]. 材料导报, 2019, 33(12): 1932-1938.

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Shared

Discussed