一步合成由 Ni-MOF 衍生的掺杂锌的硫化镍/石墨烯,用于超级电容器

IF 4.3 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Materials Chemistry and Physics Pub Date : 2024-10-19 DOI:10.1016/j.matchemphys.2024.130068
Morteza Moradi , Shokoufeh Zolfaghari , Mehdi Pooriraj , Mohsen Babamoradi , Shaaker Hajati
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引用次数: 0

摘要

本文合成了一种由金属有机框架(MOF)衍生的金属硫化物,并将其用作超级电容器电极的活性材料。本文通过一种简便的方法水热合成了镍-MOF,然后在合成的 MOF 中掺入锌,并与不同浓度的氧化石墨烯 (GO) 复合。然后,对得到的复合材料进行硫化处理,以研究合成活性材料的改进情况。利用 XRD、FESEM、EDS 和 N2 吸附-解吸滞后技术对合成材料进行了表征。利用循环伏安法、电静态充放电法和电化学阻抗谱技术对制备的电化学活性材料进行了研究。比较合成的硫化物的电化学性能发现,在电流密度为 1 A/g 时,含有较多 GO 的电极的比电容为 442.66 F/g,是其他成分中电化学性能最好的。此外,以上述电极为正极、活性炭为负极的不对称超级电容器电池在最大能量密度为 2.142 Wh/kg 时的功率密度为 774.99 W/kg,循环稳定性更高,在约 10,000 次循环中的保持率为 96%。
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One-step synthesis of Zn-doped nickel sulfide/graphene derived from Ni-MOF for supercapacitor application
A metal sulfide derived from a metal-organic framework (MOF) was synthesized to be used as the active material for the supercapacitor's electrode. In this article, nickel-MOF was hydrothermally synthesized through a facile method; then, the synthesized MOF was doped with Zinc and composited with graphene oxide (GO) in different concentrations. Then, the composites that were achieved were sulfurized to study the improvement of the synthesized active materials. The synthesized materials were characterized with XRD, FESEM, EDS, and N2 adsorption-desorption hysteresis techniques. The fabricated electrodic active materials were studied employing cyclic voltammetry, galvanostatic charge-discharge, and electrochemical impedance spectroscopy techniques. Comparing the electrochemical performance of the synthesized sulfides revealed that the electrode with a higher amount of GO has the best electrochemical performance among other compositions with the specific capacitance of 442.66 F/g, which was obtained at a current density of 1 A/g. In addition, the asymmetric supercapacitor cell consisting of the mentioned electrode as the positive electrode and activated carbon as the negative electrode provided a power density of 774.99 W/kg at the maximum energy density of 2.142 Wh/kg and a higher cycling stability of 96 % retention at about 10,000 cycles.
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来源期刊
Materials Chemistry and Physics
Materials Chemistry and Physics 工程技术-材料科学:综合
CiteScore
8.70
自引率
4.30%
发文量
1515
审稿时长
69 days
期刊介绍: Materials Chemistry and Physics is devoted to short communications, full-length research papers and feature articles on interrelationships among structure, properties, processing and performance of materials. The Editors welcome manuscripts on thin films, surface and interface science, materials degradation and reliability, metallurgy, semiconductors and optoelectronic materials, fine ceramics, magnetics, superconductors, specialty polymers, nano-materials and composite materials.
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