Iron oxide-based nanomaterials for supercapacitors

Xu Bingyan; Zheng Mingbo; Tang Hao; Chen Zixia; Chi Yao; Wang Lei; Zhang Lan; Chen Yiyi; Pang Huan

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Iron oxide-based nanomaterials for supercapacitors

机译：超级电容器的氧化铁基纳米材料

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As highly efficient and clean electrochemical energy storage devices, supercapacitors (SCs) have drawn widespread attention as promising alternatives to batteries in recent years. Among various electrode materials, iron oxide materials have been widely studied as negative SC electrode materials due to their broad working window in negative potential, ideal theoretical specific capacitance, good redox activity, abundant availability, and eco-friendliness. However, iron oxides still suffer from the problems of low stability and poor conductivity. In this review, recent progress in iron oxide-based nanomaterials, including Fe2O3, Fe3O4, FexOy, and FeOOH, as electrode materials of SCs, is discussed. The nanostructure design and various synergistic effects of nanocomposites for improving the electrochemical performance of iron oxides are emphasized. Research on iron oxide-based symmetric/asymmetric SCs is also discussed. Future outlooks regarding iron oxides for SCs are likewise proposed.

机译：作为高效和清洁的电化学能量存储装置，超级电容器（SCS）近年来对电池的有前途的替代品普遍受到了广泛的关注。在各种电极材料中，由于其宽的工作窗口，氧化铁材料被广泛地研究了负面窗口的负势，理论特异性的理论特异性电容，良好的氧化还原活动，充足的可用性和生态友好性。然而，氧化铁仍然遭受低稳定性和导电性差的问题。在本文中，讨论了氧化铁基纳米材料的最近进展，包括Fe2O3，Fe3O4，Fexoy和FeOOH，作为SCS的电极材料。强调了纳米复合材料以改善氧化铁电化学性能的纳米结构设计及各种协同作用。还讨论了氧化铁基对称/不对称SCS的研究。同样提出了关于SCS氧化铁的未来前景。

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《Nanotechnology》 |2019年第20期|共31页
作者
Xu Bingyan; Zheng Mingbo; Tang Hao; Chen Zixia; Chi Yao; Wang Lei; Zhang Lan; Chen Yiyi; Pang Huan;
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作者单位

Yangzhou Univ Inst Innovat Mat &

Energy Sch Chem &

Chem Engn Yangzhou 225002 Jiangsu Peoples R China;

Yangzhou Univ Inst Innovat Mat &

Energy Sch Chem &

Chem Engn Yangzhou 225002 Jiangsu Peoples R China;

Yangzhou Univ Inst Innovat Mat &

Energy Sch Chem &

Chem Engn Yangzhou 225002 Jiangsu Peoples R China;

Yangzhou Univ Inst Innovat Mat &

Energy Sch Chem &

Chem Engn Yangzhou 225002 Jiangsu Peoples R China;

Yangzhou Univ Inst Innovat Mat &

Energy Sch Chem &

Chem Engn Yangzhou 225002 Jiangsu Peoples R China;

Yangzhou Univ Inst Innovat Mat &

Energy Sch Chem &

Chem Engn Yangzhou 225002 Jiangsu Peoples R China;

Yangzhou Univ Inst Innovat Mat &

Energy Sch Chem &

Chem Engn Yangzhou 225002 Jiangsu Peoples R China;

Yangzhou Univ Inst Innovat Mat &

Energy Sch Chem &

Chem Engn Yangzhou 225002 Jiangsu Peoples R China;

Yangzhou Univ Inst Innovat Mat &

Energy Sch Chem &

Chem Engn Yangzhou 225002 Jiangsu Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类特种结构材料;
关键词
supercapacitor; iron oxides; nanomaterials; nanocomposite; pseudocapacitor;

机译：超级电容器;铁氧化物;纳米材料;纳米复合材料;假偶联剂;

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专利

1. Iron oxide-based nanomaterials for supercapacitors [J] . Xu Bingyan, Zheng Mingbo, Tang Hao, Nanotechnology . 2019,第20期

机译：超级电容器的氧化铁基纳米材料
2. Iron oxide-based superparamagnetic polymeric nanomaterials: Design, preparation, and biomedical application [J] . Jung Kwon Oh, Jong Myung Park Progress in Polymer Science . 2011,第1期

机译：基于氧化铁的超顺磁性聚合物纳米材料：设计，制备和生物医学应用
3. Synthesis and application of iron-based nanomaterials as anodes of lithium-ion batteries and supercapacitors [J] . Yu Shijin, Ng Vincent Ming Hong, Wang Fajun, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2018,第20期

机译：铁基纳米材料作为锂离子电池和超级电容器阳极的合成与应用
4. Iron oxide-based supercapacitor from ferratrane precursor via sol-gel-hydrothermal process [C] . Pornsit Lorkit, Manop Panapoy, Bussarin Ksapabutr Eco-Energy and Materials Science and Engineering . 2014

机译：通过溶胶 - 凝胶 - 水热法从铁丁原版中氧化铁基超级电容器
5. Arsenic removal effectiveness of iron oxide-based fibrous adsorbents and stability of granular iron oxide media. [D] . Kumar, Arun. 2008

机译：氧化铁基纤维吸附剂的除砷效果和粒状氧化铁介质的稳定性。
6. Functionalization and optimization-strategy of graphene oxide-based nanomaterials for gene and drug delivery [O] . Xiao-Min Han, Ke-Wen Zheng, Rui-Long Wang, 2020

机译：基于氧化石墨烯的纳米材料用于基因和药物传递的功能化和优化策略
7. Iron Oxide-based Supercapacitor from Ferratrane Precursor via Sol–gel-Hydrothermal Process [O] . Lorkit Pornsit, Panapoy Manop, Ksapabutr Bussarin 2014

机译：费拉特前驱体通过溶胶-凝胶-水热法制备的基于氧化铁的超级电容器

Iron oxide-based nanomaterials for supercapacitors

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