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微乳液法合成不同维度氧化锌纳米材料及其光催化活性 被引量:31

Controllable Synthesis of Different Dimensions Nano-ZnO by Microemulsion and Photocatalytic Activity
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摘要 利用表面活性剂JFC、正辛醇、环己烷和水溶液组成的反相微乳液体系,通过调控水相/油相体积比(R),分别合成出φ30~80nm球形,φ80nm×350nm棒状,厚度50nm片状结构氧化锌纳米材料.XRD、SEM和HRTEM分析表明,合成的氧化锌纳米材料虽然维度不同,但晶体结构相近,初步分析其合成机理为:微乳液水核形状控制了合成材料维度,水核之间反应物动态交换的特点和氧化锌在水溶液中各向异性生长的特性共同决定了纳米材料晶体结构;微乳液电导率变化趋势与水核形状密切相关,可依据其合成不同形态氧化锌纳米材料;以甲基橙水溶液为模拟污染物评价不同维度纳米氧化锌光催化性能,结果表明,一维棒状纳米氧化锌具有更高的光催化活性. The zinc oxide nano-materials with three structures including 30-80nm spherical,length of 350nm rod and thickness of 50nm flake were synthesised at different volume ratio of water and oil phase(R) by the reverse phase microemulsion which consist of surfactant JFC,1-octanol,cyclohexane and aqueous solution.The microstructures of zinc oxide nano-materials were observed by XRD,SEM,and HRTEM.The results show that the dimensions of zinc oxide nano materials are controlled by the shape of water core,and their crystal structures are controlled by the dynamic exchange of reactants between water cores and ZnO anisotropic growth in aqueous solution.Because the microemulsion conductivity is closely related to the water core shape,different morphology of zinc oxide nano-materials can be synthesized by adjusting conductivity.In addition,the photocatalytic properties of the different dimensions ZnO were evaluated with methyl orange aqueous solution as simulate pollutant.The result show that 1-D nano-ZnO has higher photocatalytic activity than 0-D and 2-D nano-ZnO materials.
作者 滕洪辉 徐淑坤 王猛
机构地区 东北大学化学系 吉林师范大学环境科学与工程学院
出处 《无机材料学报》 SCIE EI CAS CSCD 北大核心 2010年第10期1034-1040,共7页 Journal of Inorganic Materials
基金 吉林省教育厅科学计划项目(2009023) 吉林省中小企业局资助项目 四平市科技发展计划项目(2007012)~~
关键词 微乳液 控制合成 纳米氧化锌 光催化性能 microemulsion template controllable synthese nano-ZnO photocatalytic activity
分类号 TQ174 [化学工程—陶瓷工业]
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参考文献26

  • 1朱启安,孙旭峰,陈万平,胡耐根,张琪.水/油型微乳液中球形及棒状钛酸锶钡纳米粒子的控制合成[J].无机化学学报,2007,23(3):558-562. 被引量:2
  • 2罗静卿,赵新华,周固.CTAB/正丁醇-正辛烷-水和盐水的拟三元体系相图及微乳液微观结构的电导研究[J].高等学校化学学报,2004,25(6):1085-1089. 被引量:27
  • 3Ling Zhang,Ying-Jie Zhu.ZnO micro- and nano-structures: microwave-assisted solvothermal synthesis, morphology control and photocatalytic properties[J]. Applied Physics A . 2009 (4)
  • 4Ye Zhang,Feng Zhu,Junxi Zhang,Lingli Xia.Converting Layered Zinc Acetate Nanobelts to One-dimensional Structured ZnO Nanoparticle Aggregates and their Photocatalytic Activity[J]. Nanoscale Research Letters . 2008 (6)
  • 5Xu L P,Hu Y L,Pelligra C,et al.ZnO with different morpholo-gies synthesized by solvothermal methods for enhanced photo-catalytic activity. Chemistry of Materials . 2009
  • 6Xu F,Lu Y N,Xie Y,et al.Controllable morphology evolution of electrodeposited ZnO nano/micro-scale structures in aqueous solution. Mater.Design . 2009
  • 7Bordi F,Cametti C,Motta A,et al.Electrical conductivity of dilute and semidilute aqueous polyelectrolyte solutions:a scaling theory approach. Journal of Physical Chemistry B . 1999
  • 8Tian J T,Chen L J,Yin Y S,et al.Photocatalyst of TiO2/ZnO nano composite film:preparation,characterization,and photodegradation activity of methyl orange. Surface and Coatings Technology . 2009
  • 9Wang W W,Zhu Y J,Yang L X.ZnO-SnO2hollow spheres and hierarchical nanosheets:hydrothermal preparation,formation mechanism,and photocatalytic properties. Adv.Funct.Mater . 2007
  • 10Karunakaran C,Dhanalakshmi R.Substituent effect on nano TiO2 and ZnO catalyzed phenol photodegradation rates. Int.J.Chem.Kine . 2008

二级参考文献34

  • 1Pillai V., Kumar P.. Colloids and Surfaces A: Pysicochemical and Engineering Aspects[J], 1993, 80: 69-75
  • 2Chen D. H., Chen Y. Y.. J. Colloid Interface Sci.[J], 2001, 236: 41-46
  • 3Ayyub P., Maitra A. N., Shah D. O.. Physica C[J], 1990, 168: 571-579
  • 4Ayyub P., Maitra A. N., Shah D. O.. J. Chem. Soc. Faraday Trans.[J], 1993, 89(19): 3 585-3 589
  • 5Evans J. S. O., Mary T. A., Sleight A. W.. J. Solid State Chemistry[J], 1997, 133: 580-583
  • 6Van Nieuwkoop J., Snoei G.. J. Colloid Interface Sci.[J], 1985, 103(2): 400-416
  • 7Lam A. C., Schechter R. S.. J. Colloid Interface Sci.[J], 1987, 120(1): 42-45
  • 8Lam A. C., Schechter R. S.. J. Colloid Interface Sci.[J], 1987, 120(1): 56-63
  • 9Eicke H. F., Borkovec M.. J. Phys. Chem.[J], 1989, 93: 314-317
  • 10Fang J.. J. Colloid Interface Sci.[J], 1978, 116: 269-277

共引文献27

同被引文献449

引证文献31

二级引证文献166

无机材料学报
2010年 第10期

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