Electrochemical performance of cauliflower like binder-free magnesium-sulphide-electrodes for supercapacitor application

IF 5.8 2区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Sadaf Atta , A. Rasheed , A. Farid , Misbah Yousaf , A. Raza , I.A. Khan , Mohamed A. Ghanem , Frank Marken
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Abstract

Herein, magnesium sulphide (MgS) electrode material (EM) is deposited on nickel-foam (NF) placed at 16 and 17 cm away from the raw material by simple powder vapour transport method. The increasing source to substrate distance (SSD) not only changed the structural parameters but also changed the nanofibers to cauliflowers like surface morphology. The cauliflowers like MgS/NF EM exhibited high specific capacitance (6339 F/g) as compared to the specific capacitance (1677 F/g) of nanofibers like MgS/NF EM. The cauliflowers like EM is showed high energy density of 220–99 Wh/kg, power density of 250–2500 W/kg, equivalent series resistance of 0.95 O and capacitance-stability of 93 % even for 10,000 cycles. The increasing SSD is fruitful for the increment in diffusion rate as confirmed by shifting of electrochemical impedance spectrum to y-axis, Dunn’s model and power law simulations. The diffusive contribution is 88/82 % at 5 mV/s which become 63/50 % at 100 mV/s for the cauliflower/nanofibers like EM. Moreover, the cauliflowers like EM have both battery and capacitive nature as 0.5 < b < 1 predicted by power law simulations. Additionally, the configured asymmetric supercapacitive (ASC) device is presented the specific capacitance of 834 F/g, energy density of 354–247 Wh/kg and power density of 2625–26250 W/kg. The ASC device could maintain the Coulombic-efficiency of 99 % and capacitance stability of 93 % even for 10,000 cycles. The excellent pseudocapacitive behaviour of MgS/NF EM enables them to use in the lithium ion battery and supercapacitor devices.

用于超级电容器的无粘结剂菜花状硫化镁电极的电化学性能
在这里,硫化镁(MgS)电极材料(EM)通过简单的粉末蒸汽传输方法沉积在距离原材料 16 厘米和 17 厘米的镍泡沫(NF)上。随着源与基底距离(SSD)的增加,不仅结构参数发生了变化,而且纳米纤维的表面形态也变成了菜花状。与 MgS/NF EM 等纳米纤维的比电容(1677 F/g)相比,菜花状 MgS/NF EM 显示出较高的比电容(6339 F/g)。菜花状 EM 的能量密度高达 220-99 Wh/kg,功率密度高达 250-2500 W/kg,等效串联电阻为 0.95 O,即使在 10,000 次循环中电容稳定性也高达 93%。电化学阻抗谱向 y 轴移动、邓恩模型和幂律模拟均证实,固态固态电位的增加有利于扩散率的提高。在 5 mV/s 时,扩散贡献率为 88/82%,在 100 mV/s 时,菜花/纳米纤维(如电磁)的扩散贡献率为 63/50%。此外,根据幂律模拟预测,类似电磁的菜花具有电池和电容性质,即 0.5 < b < 1。此外,配置的非对称超级电容(ASC)器件的比电容为 834 F/g,能量密度为 354-247 Wh/kg,功率密度为 2625-26250 W/kg。ASC 器件即使在 10,000 次循环中也能保持 99% 的库仑效率和 93% 的电容稳定性。MgS/NF EM 卓越的伪电容特性使其能够用于锂离子电池和超级电容器装置。
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来源期刊
Journal of Saudi Chemical Society
Journal of Saudi Chemical Society CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
8.90
自引率
1.80%
发文量
120
审稿时长
38 days
期刊介绍: Journal of Saudi Chemical Society is an English language, peer-reviewed scholarly publication in the area of chemistry. Journal of Saudi Chemical Society publishes original papers, reviews and short reports on, but not limited to: •Inorganic chemistry •Physical chemistry •Organic chemistry •Analytical chemistry Journal of Saudi Chemical Society is the official publication of the Saudi Chemical Society and is published by King Saud University in collaboration with Elsevier and is edited by an international group of eminent researchers.
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