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Supercapacitors: Design and Performance of Rechargeable Sodium Ion Batteries, and Symmetrical Li‐Ion Batteries with Supercapacitor‐Like Power Density Based upon Polyoxovanadates (Adv. Energy Mater. 6/2018)
Advanced Energy Materials ( IF 27.8 ) Pub Date : 2018-02-26 , DOI: 10.1002/aenm.201870024 Jia-Jia Chen 1, 2 , Jian-Chuan Ye 1 , Xia-Guang Zhang 1 , Mark D. Symes 2 , Shao-Cong Fan 1 , De-Liang Long 2 , Ming-Sen Zheng 1 , De-Yin Wu 1 , Leroy Cronin 1, 2 , Quan-Feng Dong 1
Advanced Energy Materials ( IF 27.8 ) Pub Date : 2018-02-26 , DOI: 10.1002/aenm.201870024 Jia-Jia Chen 1, 2 , Jian-Chuan Ye 1 , Xia-Guang Zhang 1 , Mark D. Symes 2 , Shao-Cong Fan 1 , De-Liang Long 2 , Ming-Sen Zheng 1 , De-Yin Wu 1 , Leroy Cronin 1, 2 , Quan-Feng Dong 1
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In article number 1701021, researchers from Xiamen University and the University of Glasgow, Quan‐Feng Dong, Leroy Cronin and co‐workers, demonstrate that polyoxometalate Li7V15O36(CO3) can be considered to be an “electron sponge” in several different types of electrochemical energy storage systems with high power and energy densities. The material can be readily extracted from spent electrodes, enabling a simple and highly efficient recovery process for cathode materials.
中文翻译:
超级电容器:基于聚氧钒酸盐的可充电钠离子电池和具有类似超级电容器功率密度的对称锂离子电池的设计和性能(Adv。Energy Mater。6/2018)
在编号1701021中,厦门大学和格拉斯哥大学的研究人员,董全峰,Leroy Cronin及其同事证明了多金属氧酸盐Li 7 V 15 O 36(CO 3)可被视为“电子海绵”。在几种不同类型的具有高功率和能量密度的电化学储能系统中使用。该材料可以很容易地从废电极中提取出来,从而为阴极材料提供了一种简单而高效的回收方法。
更新日期:2018-02-26
中文翻译:
超级电容器:基于聚氧钒酸盐的可充电钠离子电池和具有类似超级电容器功率密度的对称锂离子电池的设计和性能(Adv。Energy Mater。6/2018)
在编号1701021中,厦门大学和格拉斯哥大学的研究人员,董全峰,Leroy Cronin及其同事证明了多金属氧酸盐Li 7 V 15 O 36(CO 3)可被视为“电子海绵”。在几种不同类型的具有高功率和能量密度的电化学储能系统中使用。该材料可以很容易地从废电极中提取出来,从而为阴极材料提供了一种简单而高效的回收方法。
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