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Lithium‐Ion Batteries: A Novel α‐MoO3/Single‐Walled Carbon Nanohorns Composite as High‐Performance Anode Material for Fast‐Charging Lithium‐Ion Battery (Adv. Energy Mater. 36/2020)
Advanced Energy Materials ( IF 24.4 ) Pub Date : 2020-09-22 , DOI: 10.1002/aenm.202070151 Sumit Ranjan Sahu 1, 2 , Vallabha Rao Rikka 1, 3 , Prathap Haridoss 2 , Abhijit Chatterjee 3 , Raghavan Gopalan 1 , Raju Prakash 1
Advanced Energy Materials ( IF 24.4 ) Pub Date : 2020-09-22 , DOI: 10.1002/aenm.202070151 Sumit Ranjan Sahu 1, 2 , Vallabha Rao Rikka 1, 3 , Prathap Haridoss 2 , Abhijit Chatterjee 3 , Raghavan Gopalan 1 , Raju Prakash 1
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Lithium‐ion batteries dominate commercial battery technology due to better energy and power densities, however their cycling stability properties have drawbacks. In article number 2001627, Raju Prakash and co‐workers present the synthesis of a novel α‐MoO3 and single‐walled carbon‐nanohorns composite and demonstrate that a lithium‐ion cell built from the composite material shows high‐energy density, fast charging, and long‐cycling life capabilities. These powerful cells could perhaps be used as a lasting energy source for spacecraft to explore the outer planets in our solar system.
中文翻译:
锂离子电池:一种新型α-MoO3/单壁碳纳米角复合材料,可作为高性能阳极材料,用于快速充电的锂离子电池(Adv。Energy Mater。36/2020)
锂离子电池由于具有更好的能量和功率密度而在商用电池技术中占主导地位,但是其循环稳定性却存在缺点。在文章编号2001627,拉朱普拉卡什和同事提出一个新的α-的MoO的合成3和单壁碳纳米角复合,并表明从复合材料显示出高能量密度内置的锂离子电池中,快速充电以及长寿命的功能。这些强大的细胞也许可以用作航天器的持久能源,以探索我们太阳系中的外行星。
更新日期:2020-09-22
中文翻译:
锂离子电池:一种新型α-MoO3/单壁碳纳米角复合材料,可作为高性能阳极材料,用于快速充电的锂离子电池(Adv。Energy Mater。36/2020)
锂离子电池由于具有更好的能量和功率密度而在商用电池技术中占主导地位,但是其循环稳定性却存在缺点。在文章编号2001627,拉朱普拉卡什和同事提出一个新的α-的MoO的合成3和单壁碳纳米角复合,并表明从复合材料显示出高能量密度内置的锂离子电池中,快速充电以及长寿命的功能。这些强大的细胞也许可以用作航天器的持久能源,以探索我们太阳系中的外行星。
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