孟长功

个人信息Personal Information

教授

博士生导师

硕士生导师

性别:男

毕业院校:中科院金属所

学位:博士

所在单位:化工学院

学科:无机化学

办公地点:大连理工大学化学楼401

联系方式:13940825088

电子邮箱:cgmeng@dlut.edu.cn

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A novel ordered hollow spherical nickel silicate-nickel hydroxide composite with two types of morphologies for enhanced electrochemical storage performance

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论文类型:期刊论文

发表时间:2019-10-01

发表刊物:MATERIALS CHEMISTRY FRONTIERS

收录刊物:SCIE

卷号:3

期号:10

页面范围:2090-2101

摘要:Herein, a facile strategy was developed for the preparation of a nanostructured nickel silicate-nickel hydroxide composite (NiSi-Ni(OH)(2)) with two types of morphologies, including coated hollow nanospheres (NiSi@Ni(OH)(2)) and platelet-assembled hollow spheres (Ni(OH)(2)-Si) as a positive electrode material in hybrid supercapacitors. This strategy involved the use of nano-sized SiO2 derived from the Stober method as the silicon source and a single-step hydrothermal method. The as-synthesized NiSi-Ni(OH)(2) composite exhibited a battery-like redox behavior and relatively high charge storage property (476.4 F g(-1) at 2 A g(-1)) when measured in a three-electrode system. It also delivered high stability during long-term cycling (103.3% after 10 000 cycles), which is mainly due to the synergistic effect after the combination of the two materials, where the hollow spherical structures facilitate the fast diffusion of electrolyte ions and enable the fast transmission of electrons. Considering its practical applications, a hybrid asymmetric supercapacitor (HSC) device was assembled using NiSi-Ni(OH)(2) as the positive electrode and porous activated carbon as the negative electrode in PVA-KOH electrolyte gel. The HSC exhibited a capacitance of 674.7 mF cm(-2) at 2 mA cm(-2), corresponding to a maximum energy and power density of 21.6 W h kg(-1) (5.2 W h cm(-3)) and 431.7 mW kg(-1) (104.3 mW cm(-3)), respectively. These properties demonstrate the potential of the hollow-structured NiSi-Ni(OH)(2) composite for achieving high-energy and stable energy storage systems.