Hierarchically self-assembled NiCo(2)O(4)nanopins as a high-performance supercapacitor cathodic material: a morphology controlled study

Hassanpoor Shahed; Aghely Farzaneh

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Hierarchically self-assembled NiCo(2)O(4)nanopins as a high-performance supercapacitor cathodic material: a morphology controlled study

机译：分层自组装的Nico（2）O（4）纳米载作为高性能超级电容器阴极材料：一种形态学控制研究

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In this study, 3D hierarchically self-assembled NiCo(2)O(4)nanopins were synthesized by a morphology controlled hydrothermal method. Structure, morphology, and composition of the samples were investigated using FT-IR, XRD, EDS, and SEM methods. Electrochemical tests such as cyclic voltammetry (CV) and galvanostatic charge/discharge (GCD) studies were done in a three-electrode system with 1.0 M Na(2)SO(4)solution as the electrolyte for the supercapacitive study of the samples on a carbon paste electrode for the first time. The results confirmed the high-performance supercapacitive behavior of the dense nanostructure and acceptable stability during the charge-discharge cycle. The specific capacitance for the dense self-organized nanopins was calculated using a galvanostatic charge/discharge experiment which gave 2168 F g(-1)at a current density of 5 A g(-1).

机译：在该研究中，通过形态受控的水热法合成了3D层次自组装的Nico（2）o（4）纳米氟镁。使用FT-IR，XRD，EDS和SEM方法研究样品的结构，形态和组成。循环伏安法（CV）和电镀电荷/放电（GCD）研究的电化学试验是在具有1.0m Na（2）SO（4）溶液的三电极系统中进行的，作为样品的超级电容研究的电解质第一次碳浆料电极。结果证实了在充电 - 放电循环期间致密纳米结构的高性能超级特征行为和可接受的稳定性。使用GALVANOTATIC电荷/放电实验计算致密自组织纳米镁的特定电容，其在电流密度为5Ag（-1）。

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《RSC Advances》 |2020年第58期|共10页
作者
Hassanpoor Shahed; Aghely Farzaneh;
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Univ Guilan Fac Engn Dept Nanotechnol Rasht Iran;

Univ Guilan Fac Engn Dept Nanotechnol Rasht Iran;

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正文语种 eng
中图分类化学;
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1. Hierarchically self-assembled NiCo(2)O(4)nanopins as a high-performance supercapacitor cathodic material: a morphology controlled study [J] . Hassanpoor Shahed, Aghely Farzaneh RSC Advances . 2020,第58期

机译：分层自组装的Nico（2）O（4）纳米载作为高性能超级电容器阴极材料：一种形态学控制研究
2. Construction of hierarchical porous NiCo_2O_4 films composed of nanowalls as cathode materials for high-performance supercapacitor [J] . Qingyun Zheng, Xiangyang Zhang, Youming Shen Materials Research Bulletin . 2015,第apra期

机译：纳米壁作为高性能超级电容器阴极材料的分层多孔NiCo_2O_4膜的构建
3. Morphology-controlled synthesis of nanosphere-like NiCo2S4 as cathode materials for high-rate asymmetric supercapacitors [J] . Chen Yin-Ying, Dhaiveegan Periyathambi, Michalska Monika, Electrochimica Acta . 2018,第期

机译：形态学控制的纳米镍尼可以2S4作为高速率不对称超级电容器的阴极材料
4. Controlled Growth and Morphological Evolution of Nico Hydroxides for High Performance Hybrid Supercapacitor Applications [C] . Seong-Ho Baek, Young-Min Jeong Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

机译：高性能杂交超级电容器应用中Nico氢氧化物的受控生长和形态演化
5. Understanding and Controlling Nanoscale Morphology in Self-Assembled Semiconducting Materials. [D] . Kang, Hyeyeon. 2017

机译：了解和控制自组装半导体材料中的纳米形态。
6. Hierarchical Heterostructures of NiCo2O4@XMoO4 (X = Ni Co) as an Electrode Material for High-Performance Supercapacitors [O] . Jiyu Hu, Feng Qian, Guosheng Song, 2016

机译：NiCo2O4 @ XMoO4（X = NiCo）作为高性能超级电容器的电极材料的分层异质结构
7. Hierarchically self-assembled NiCo2O4 nanopins as a high-performance supercapacitor cathodic material: a morphology controlled study [O] . Shahed Hassanpoor, Farzaneh Aghely 2020

机译：分层自组装的Nico2O4纳米钯作为高性能超级电容器阴极材料：一种形态学控制研究

Hierarchically self-assembled NiCo(2)O(4)nanopins as a high-performance supercapacitor cathodic material: a morphology controlled study

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