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多孔硫化镍中空亚微球的制备及其超电容性能研究 被引量:2

Research on the Preparation and Supercapacitive Properties of Porous Nickel Sulfide Hollow Submicrospheres
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摘要 以四水合乙酸镍为原料、硫代乙酰胺为沉淀剂和硫源,采用一步溶剂热法合成了介孔富有的多孔NiS中空亚微球。并采用XRD、FESEM、EDS、TEM、HRTEM、SAED、XPS和氮气吸脱附测试以及循环伏安(CV)、恒流充放电、交流阻抗等进行了材料表征和电化学性能测试。研究结果表明,所合成的NiS为介孔富有的多孔中空亚微球结构,且其尺寸大小较为均匀,壳层较薄。这种独特的多孔中空结构使得其作为超级电容器电池型正极材料时表现出优异的电化学性能:3A·g^-1电流密度下的比容量值为155.4mA·h·g^-1,20A·g^-1电流密度下的比容量值仍然保持在92.9mA·h·g^-1,倍率容量保持率为59.8%,且在5A·g^-1电流密度下5000次循环后比容量仍可达115.3mA·h·g^-1,初始容量保持率为85.0%。 With nickel acetate tetrahydrate as raw material, and thioacetamide as precipitator and sulfur source, mesoporous NiS hollow submicrospheres can be synthesized by using one-step solvothermal method. XRD, FESEM, EDS, TEM, HRTEM, SAED, XPS and nitrogen adsorption and desorption tests, as well as cyclic voltammetry (CV), constant current charge-discharge, AC impedance, are used to characterize and test the electrochemical properties. The results show that the synthesized NiS is characterized with mesoporous and porous hollow submicrospheres with uniform size and thin shell. This unique porous hollow structure enables it to exhibit excellent electrochemical performance as a cathode material for supercapacitor batteries: with the specific capacity at 3A·g^-1 current density being 155.4 mA·h·g^-1, the specific capacity at 20 A·g^-1 current density remaining 92.9 mA·h·g^-1, the rate of retention being 59.8%, and the specific capacity still reaching 115.3 mA·h·g^-1 after 5 000 cycles with a current density of 5 A·g^-1, while the initial capacity retention rate being 85.0%.
作者 朱裔荣 潇如 吴尚霖 李敬迎 姚俊军 李林硕 ZHU Yirong;YUN Xiaoru;WU Shanglin;LI Jingying;YAO Junjun;LI Linshuo(College of Metallurgy and Material Engineering,Hunan University of Technology,Zhuzhou Hunan 412007,China;College of Mechanical Engineering,Hunan University of Technology,Zhuzhou Hunan 412007,China)
出处 《湖南工业大学学报》 2019年第5期92-98,共7页 Journal of Hunan University of Technology
基金 国家自然科学基金资助项目(21601057)
关键词 超级电容器 NIS 中空亚微球 电池型电极材料 supercapacitor NiS hollow submicrosphere electrode material
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