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纳米CoWO_(4)材料的形貌调控方法及应用研究进展

Research Progress of Morphology Control Methods and Applications of Nano CoWO_(4) Materials
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摘要 纳米半导体材料钨酸钴(CoWO_(4))具有特殊的晶体结构以及磁性、电化学性质、催化活性、光致发光等性能.CoWO_(4)性能的多样性是由于晶体结构、粒径、比表面积以及带隙能等表面形貌参数不同造成的.相应的,CoWO_(4)的合成方法不同,其制备产物的表面形貌参数也各异.文章比较了7类不同CoWO_(4)的制备方法,总结了合成条件的改变对其形貌的影响;列出了3类CoWO_(4)最常用的改性方法,对比了改性后CoWO_(4)的形貌及性能差异;最后提出了不同形貌CoWO_(4)应用前景. Cobalt tungstate(CoWO_(4)),a nanometer semiconductor material,has attracted the attention of many scientists due to its special crystal structure,magnetic,electrochemical,catalytic activity and photoluminescence properties.The properties of CoWO_(4) is due to the different surface morphology parameters such as crystal structure,particle size,specific surface area and band gap energy.Correspondingly,the surface morphology parameters of the prepared products vary with the different synthesis methods of CoWO_(4).In this review,the morphologies of seven kinds of CoWO_(4) prepared by different methods are compared for the first time,and the influence of synthesis conditions on their morphologies are also summarized.In addition,three most commonly used modification methods of CoWO_(4) are listed,and the morphology parameters of the modified CoWO_(4) are compared.Finally,the main applications of CoWO_(4) are introduced,and the influence of different morphology of CoWO_(4) on their application and application prospect are summarized.
作者 徐亮 刘妮萍 吴学签 王思幻 宋香霖 XU Liang;LIU Ni-ping;WU Xue-qian;WANG Si-huan;SONG Xiang-lin(School of Pharmaceutical Sciences,Liaoning University,Shenyang 110036,China)
机构地区 辽宁大学药学院
出处 《辽宁大学学报(自然科学版)》 CAS 2021年第4期305-311,共7页 Journal of Liaoning University:Natural Sciences Edition
基金 辽宁省教育厅一般项目(LQN202016) 辽宁大学大学生创新创业训练项目(D202011291423047482) 辽宁大学大学生创新创业训练项目(x202010140243)。
关键词 钨酸钴 形貌调控 应用 Cobalt tungstate morphological characteristics application
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  • 1You T, Cao G X, Song X Y, et al. Alcohol thermal synthesis of flowerlike hollow cobalt tungstate nanostructures[ J ]. Materials Letters,2008,62 ( 8/9 ) : 1169 - 1172.
  • 2Thongtem S, Wannapop S,Thongtem T. Characterization of CoWO4 nano -particles produced using spray pyrolysis [ J ]. Ceramics International, 2009,35 ( 5 ) : 2087 - 2091.
  • 3Cahn J W. On the morphology stability of growth crystals[ M]. Oxford: Pergamon Press, 1967.
  • 4Arendt R H, Rosolowski Z H, Szymsazek J W. Lead zirconate titanate ceramics from molten salt solvent synthesized powders[ J]. Materials Research Bulletin, 1979,14( 5 ) :703 - 709.
  • 5Pullar R C, Farrah S, Alford N McN. MgWO4 ,ZnWO4 , NiWO4 and CoWO4 microwave dielectric ceramics[ J]. Journal of the European Ceramic Society ,2007,27 ( 2/3 ) : 1059 - 1063.
  • 6Pandey P K, Bhave N S, Kharat R B. Structural, optical, electrical and photovoltaic electrochemical [ J ]. Electrochimica Acta, 2006, 51 (19) :4659 -4664.
  • 7Guo Q T,Wang J W, Kleppa Ole Jakob. Note on the enthalpies of formation, from the component oxides, of CoWO4 and NiWO4 , determined by high - temperature direct synthesis calorimetry [ J ]. Thermochimica Acta,2001,46( 1 ) : 1 -4.
  • 8Montemayor S M, Fuentes A F. Electrochemical characteristics of lithium insertion in several 3D metal tungstates( MWO4, M = Cu, Ni, Mn and Co)prepared by aqueous reactions[ J ]. Ceramics International,2004,30 ( 3 ) : 393 - 400.
  • 9徐清艳,黄晓东.Fe^(3+)、Cu^(2+)掺杂TiO_2光催化降解日落黄的研究[J].闽江学院学报,2013,34(2):108-112. 被引量:7
  • 10蒋东丽,刘汉甫,刘峰,白先群,顾生玖.不同形貌纳米CoWO_4的水热法制备及气敏性能(英文)[J].无机化学学报,2014,30(8):1969-1976. 被引量:1

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