材料科学
超级电容器
石墨烯
电极
电解质
电容
电化学
循环伏安法
介电谱
水平扫描速率
化学工程
复合数
阳极
电导率
兴奋剂
假电容器
离子电导率
热稳定性
比表面积
极化(电化学)
氧化物
作者
Abdel-Menem Elnemr,E. Sheha,Ahmed M. Ghander,Hytham Elbohy
出处
期刊:ACS omega
[American Chemical Society]
日期:2025-10-25
卷期号:10 (43): 51512-51523
标识
DOI:10.1021/acsomega.5c07179
摘要
Barium carbonate (BaCO3) is a stable inorganic compound with a high ionic conductivity and thermal stability, making it valuable for electrochemical applications. This study develops BaCO3-doped graphene nanoplate (GPL) electrodes and compares them to pure GPL electrodes. The BaCO3/GPL composite exhibits a lower surface area and altered pore distribution but achieves a higher surface potential, enhancing the electrolyte penetration and ion transport. Its superior electrochemical performance makes it a strong candidate for energy storage. Using a 1.0 M Na2SO4 electrolyte, Cyclic voltammetry (CV) measurements revealed that at a scan rate of 0.03 V s–1, the BaCO3/GPL composite exhibited markedly enhanced capacitance compared to pristine GPL, attaining 164.524 F g–1 versus 59.724 F g–1 in the anodic sweep and 943.95 F g–1 versus 510.124 F g–1 in the cathodic sweep. The enhanced capacitance is attributed to the greater negative surface potential, improving charge storage. The BaCO3/GPL electrode displays great cycling stability, still maintaining 91.17% and 90.08% of the initial capacitance in the negative and positive directions, respectively, after 1200 charge–discharge cycles. Structural and electrochemical properties were analyzed using XRD, FT-IR, Raman, AFM, XPS, and EIS at different cycling stages and SEM before and after cycling, confirming the material’s stability and efficiency for supercapacitor applications.
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