<![CDATA[Design of zinc vanadate (Zn <ce:inf loc='post'>3</ce:inf>V <ce:inf loc='post'>2</ce:inf>O <ce:inf loc='post'>8</ce:inf>)/nitrogen doped multiwall carbon nanotubes (N-MWCNT) towards supercapacitor electrode applications]]>

B. Suganya; S. Maruthamuthu; J. Chandrasekaran; B. Saravanakumar; E. Vijayakumar; R. Marnadu; Abdullah M. Al-Enizi; Mohd Ubaidullah

首页> 外文期刊>Journal of Electroanalytical Chemistry: An International Journal Devoted to All Aspects of Electrode Kinetics, Interfacial Structure, Properties of Electrolytes, Colloid and Biological Electrochemistry >3V 2O 8)/nitrogen doped multiwall carbon nanotubes (N-MWCNT) towards supercapacitor electrode applications]]>

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3V 2O 8)/nitrogen doped multiwall carbon nanotubes (N-MWCNT) towards supercapacitor electrode applications]]>

机译：“inf place =”post“> 8 /氮掺杂多壁碳纳米管（n-mwcnt）朝向超级电容器电极应用]]]>

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An electrochemically active composite material consisting of zinc vanadate (Zn3V2O8) and nitrogen doped multi wall carbon nanotubes (N-MWNCT) was prepared using simple hydrothermal procedure. This attractive composite material was exploited as an electrode for the supercapacitor application. The multiple oxidation states of vanadium and stable zinc rendered wide range of redox reaction with MWCNT which was explored with K2SO4neutral electrolyte. The electron microscopic analysis along with XRD and XPS confirmed the formation of ternary composite. The unique combination of Zn3V2O8and N-MWNCT showed a specific capacitance of 403?F?g?1with better stability of 79% for 5000?cycles. The presence of N-MWCNT enhanced the performance of the ZVC composite by providing structural support which significantly reduced the charge transfer resistance Rct(1.3?Ω) and series resistance Rs(1.8?Ω) by providing synergetic effects. The results have demonstrated the potential scope of ZVC for the energy storage device.

机译：采用简单的水热法制备了钒酸锌（Zn3V2O8）和氮掺杂多壁碳纳米管（N-MWNCT）的电化学活性复合材料。这种极具吸引力的复合材料被用作超级电容器的电极。钒和稳定锌的多种氧化状态使多壁碳纳米管与K2SO4中性电解液发生广泛的氧化还原反应。电子显微镜分析以及XRD和XPS证实了三元复合材料的形成。Zn3V2O8和N-MWNCT的独特组合显示出403？的比电容？FG1对于5000，79%的稳定性更好？循环。N-MWCNT的存在通过提供结构支撑而增强了ZVC复合材料的性能，通过提供协同效应显著降低了电荷转移电阻Rct（1.3Ω）和串联电阻Rs（1.8Ω）。结果表明，ZVC在储能器件中具有潜在的应用范围。

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《Journal of Electroanalytical Chemistry: An International Journal Devoted to All Aspects of Electrode Kinetics, Interfacial Structure, Properties of Electrolytes, Colloid and Biological Electrochemistry》 |2021年第1期|共1页
作者
B. Suganya; S. Maruthamuthu; J. Chandrasekaran; B. Saravanakumar; E. Vijayakumar; R. Marnadu; Abdullah M. Al-Enizi; Mohd Ubaidullah;
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作者单位

Faculty of Physics Nehru Arts and Science College;

Department of Physics PSG Institute of Technology and Applied Research;

Department of Physics Sri Ramakrishna Mission Vidyalaya College of Arts and Science;

Department of Physics Dr. Mahalingam College of Engineering and Technology;

Department of Materials Science and Engineering Korea University;

Department of Physics Sri Ramakrishna Mission Vidyalaya College of Arts and Science;

Department of Chemistry College of Science King Saud University;

Department of Chemistry College of Science King Saud University;

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原文格式 PDF
正文语种 eng
中图分类分析化学;
关键词
Zn3V2O8; Neutral electrolyte; K+ions; Supercapacitor; MWCNT;

机译：Zn3V2O8;中性电解质;K +离子;超级电容器;MWCNT;

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3V 2O 8)/nitrogen doped multiwall carbon nanotubes (N-MWCNT) towards supercapacitor electrode applications]]>

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