Boosting supercapacitor performance: Sb2O3 nano-blocks on rGO sheets for enhanced energy storage

IF 3.4 3区 化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR
Maryam E. Abo Elnaga , Aya Mohamed Abuelftooh , Fatma A. Taher , Saad G. Mohamed
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Abstract

In this work, the synthesis of antimony(III) oxide (Sb2O3) nanoblocks/reduced graphene oxide (rGO) sheets was obtained by a straightforward hydrothermal method. Sb2O3/rGO composites were prepared with various ratios of rGO. The results indicated that the Sb2O3/15 mg rGO composite had remarkable electrochemical performance. It displayed a good electrochemical efficiency, with a high specific capacitance of 151.89 F g−1 at 1 A g−1. Furthermore, it demonstrated a significant cycling stability, retaining 80 % of its initial capacitance after 5 K charge/discharge cycles. A symmetric supercapacitor device was prepared using Sb2O3/15 mg rGO composite as the electrodes for both positive and negative ends. The device exhibited a high specific energy of 44.36 Wh kg−1 and a significant specific power of 850.76 W kg−1. Moreover, it maintained 5.025 Wh kg−1 at a specific power of 7.25 kW kg−1. These results indicated that the Sb2O3/15 mg rGO composite has the potential promising application as an energy-storage electrode material, as no investigations have been conducted on using Sb2O3/rGO as a supercapacitor electrode.

Abstract Image

提升超级电容器性能:在 rGO 片材上添加 Sb2O3 纳米块以增强能量存储
本研究采用水热法合成了纳米氧化锑(III)(Sb2O3)块/还原氧化石墨烯(rGO)片。以不同比例的 rGO 制备了 Sb2O3/rGO 复合材料。结果表明,Sb2O3/15 mg rGO 复合材料具有显著的电化学性能。它具有良好的电化学效率,在 1 A g-1 的条件下,比电容高达 151.89 F g-1。此外,它还具有显著的循环稳定性,在 5 K 充放电循环后仍能保持 80% 的初始电容。利用 Sb2O3/15 mg rGO 复合材料作为正负极的电极,制备了一种对称超级电容器装置。该装置的比能量高达 44.36 Wh kg-1,比功率为 850.76 W kg-1。此外,在比功率为 7.25 kW kg-1 时,它还能保持 5.025 Wh kg-1。这些结果表明,Sb2O3/15 mg rGO 复合材料作为储能电极材料具有潜在的应用前景,因为目前还没有将 Sb2O3/rGO 用作超级电容器电极的研究。
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来源期刊
Solid State Sciences
Solid State Sciences 化学-无机化学与核化学
CiteScore
6.60
自引率
2.90%
发文量
214
审稿时长
27 days
期刊介绍: Solid State Sciences is the journal for researchers from the broad solid state chemistry and physics community. It publishes key articles on all aspects of solid state synthesis, structure-property relationships, theory and functionalities, in relation with experiments. Key topics for stand-alone papers and special issues: -Novel ways of synthesis, inorganic functional materials, including porous and glassy materials, hybrid organic-inorganic compounds and nanomaterials -Physical properties, emphasizing but not limited to the electrical, magnetical and optical features -Materials related to information technology and energy and environmental sciences. The journal publishes feature articles from experts in the field upon invitation. Solid State Sciences - your gateway to energy-related materials.
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