青岛科技大学  English 
张猛
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硕士生导师  

教师拼音名称:zhangmeng

出生日期:1984-03-15

入职时间:2014-09-10

所在单位:无机非金属材料教研室

学历:博士研究生

性别:男

联系方式:13792436574

学位:工学博士

学科:

材料学

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Vertically cross-linked and porous CoNi<inf>2</inf>S<inf>4</inf>nanosheets-decorated SiC nanowires with exceptional capacitive performance as a free-standing electrode for asymmetric supercapacitors

关键字:Electrochemical electrodes;Activated carbon - Cobalt deposits - Electrodes - Foams - Nanosheets - Nanowires - Nickel - Silicon carbide;Asymmetric supercapacitor - Electrochemical characteristics - Free-standing electrode - Hybrid electrodes - Hydrothermal technology - Large specific surface areas - Nano-structured electrodes - SiC nanowire

摘要:In this paper, a simple, low-cost and mild hydrothermal technology of growing vertically cross-linked ternary nickel cobalt sulfides nanosheets (CoNi<inf>2</inf>S<inf>4</inf>NSs) with porous characteristics on SiC nanowires (SiC NWs) supporters with outstanding resistances to oxidation and corrosion, good conductivity and large specific surface area deposited directly on carbon cloth (CC) is successfully developed, forming a new family of free-standing advanced hybrid electrode for asymmetric supercapacitors (ASCs). Such integrated electrode (SiC NWs@CoNi<inf>2</inf>S<inf>4</inf>NSs) manifests intriguing electrochemical characteristics such as high specific capacity (231.1&nbsp;mA&nbsp;h&nbsp;g<sup>&minus;1</sup>at 2&nbsp;A&nbsp;g<sup>&minus;1</sup>) and rate capability due to the synergistic effect of SiC NWs and CoNi<inf>2</inf>S<inf>4</inf>NSs with unique morphology. Additionally, an asymmetric supercapacitor is also assembled via using this special hybrid architectures as positive electrode and activated carbon (AC) on Ni foam (NF) as negative electrode, and it can yield a high energy density of 57.8&nbsp;W&nbsp;h&nbsp;kg<sup>&minus;1</sup>with a power density of 1.6&nbsp;kW&nbsp;kg<sup>&minus;1</sup>and long cycling lifespan. This study constitutes an emerging attractive strategy to reasonably design and fabricate novel SiC NWs-based nanostructured electrodes with enhanced capacity, which holds great potential to be the candidate of electrode materials for environmentally benign as well as high-performance energy storage devices. &copy; 2016 Elsevier B.V.

卷号:332

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