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Recent Advancements in Energy Storage Based on Sodium Ion and Zinc Ion Hybrid Supercapacitors
Energy & Fuels ( IF 5.2 ) Pub Date : 2021-09-03 , DOI: 10.1021/acs.energyfuels.1c01753 Navajsharif S. Shaikh 1 , V. C. Lokhande 2 , Supareak Praserthdam 3 , Chandrakant D. Lokhande 4 , F. I. Ezema 5 , D. J. Salunkhe 6 , Jasmin S. Shaikh 3 , Pongsakorn Kanjanaboos 1
Energy & Fuels ( IF 5.2 ) Pub Date : 2021-09-03 , DOI: 10.1021/acs.energyfuels.1c01753 Navajsharif S. Shaikh 1 , V. C. Lokhande 2 , Supareak Praserthdam 3 , Chandrakant D. Lokhande 4 , F. I. Ezema 5 , D. J. Salunkhe 6 , Jasmin S. Shaikh 3 , Pongsakorn Kanjanaboos 1
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The hybrid supercapacitor is appealing for commercial applications which have the aptitude to supply high energy density without compromising other supercapacitor properties. The Review is the complete insight of a reported Na+- and Zn+-based hybrid supercapacitor with the principle of the working mechanism. The combination of different semiconductor-based electrodes as the anode or cathode has been presented so researchers can update the progress of the sodium-ion-based hybrid supercapacitor (Na-HSC). In pursuit of replacing the activated carbon (AC)-based electrode due to its limited capacitance which results from an imbalance between the cathode and anode, we provide this Review with tables, figures, and their comparative studies. Society is moving toward smart electronic and hybrid devices that require flexibility, resilience, and high safety as people closely interact with these devices. The zinc ion hybrid supercapacitor (Zn-HSCs) is a comprehensive solution to toxic and explosive sodium-ion and lithium-ion devices. This Review represents recent reported metal oxides, chalcogenides, ceramics, MXenes, and carbon-based materials used for Zn-HSCs. Additionally, the hybrid capacitors with flexibility and the lightweight micro-supercapacitors have been studied and presented along with their challenges for pragmatic usage.
中文翻译:
基于钠离子和锌离子混合超级电容器的储能新进展
混合超级电容器对于商业应用具有吸引力,这些应用具有提供高能量密度而不影响其他超级电容器特性的能力。该评论是对所报告的 Na + - 和 Zn +的完整见解基于工作原理的混合超级电容器。已经提出了不同半导体基电极的组合作为阳极或阴极,因此研究人员可以更新钠离子基混合超级电容器 (Na-HSC) 的进展。由于正极和负极之间的不平衡导致电容有限,为了寻求替换基于活性炭 (AC) 的电极,我们为本综述提供了表格、数字及其比较研究。随着人们与这些设备的密切互动,社会正朝着需要灵活性、弹性和高安全性的智能电子和混合设备发展。锌离子混合超级电容器(Zn-HSCs)是针对有毒和爆炸性钠离子和锂离子器件的综合解决方案。本评论代表最近报道的金属氧化物,硫属化物、陶瓷、MXenes 和用于 Zn-HSC 的碳基材料。此外,还研究了具有灵活性的混合电容器和轻量级微型超级电容器,并提出了它们在实际应用中的挑战。
更新日期:2021-09-16
中文翻译:
基于钠离子和锌离子混合超级电容器的储能新进展
混合超级电容器对于商业应用具有吸引力,这些应用具有提供高能量密度而不影响其他超级电容器特性的能力。该评论是对所报告的 Na + - 和 Zn +的完整见解基于工作原理的混合超级电容器。已经提出了不同半导体基电极的组合作为阳极或阴极,因此研究人员可以更新钠离子基混合超级电容器 (Na-HSC) 的进展。由于正极和负极之间的不平衡导致电容有限,为了寻求替换基于活性炭 (AC) 的电极,我们为本综述提供了表格、数字及其比较研究。随着人们与这些设备的密切互动,社会正朝着需要灵活性、弹性和高安全性的智能电子和混合设备发展。锌离子混合超级电容器(Zn-HSCs)是针对有毒和爆炸性钠离子和锂离子器件的综合解决方案。本评论代表最近报道的金属氧化物,硫属化物、陶瓷、MXenes 和用于 Zn-HSC 的碳基材料。此外,还研究了具有灵活性的混合电容器和轻量级微型超级电容器,并提出了它们在实际应用中的挑战。
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