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电气二次电缆断芯故障的查测方法 被引量:1
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作者 夏永辉 《供用电》 2012年第1期78-80,共3页
电气二次电缆极易发生断芯故障。介绍了查测电缆断芯故障的电容法、感应电压法、低压脉冲反射法、脉冲定位结合电桥定位法等的原理及应用范围,提出了针对不同情况采取更有效查测方法的建议。
关键词 电气二次电缆 断芯故障 查测方法
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Long life rechargeable Li-O_2 batteries enabled by enhanced charge transfer in nanocable-like Fe@N-doped carbon nanotube catalyst 被引量:4
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作者 于梦舟 周思 +5 位作者 刘洋 王治宇 周涛 赵纪军 赵宗彬 邱介山 《Science China Materials》 SCIE EI CSCD 2017年第5期415-426,共12页
Rechargeable Li-O2 batteries have attracted considerable interests because of their exceptional energy density. However, the short lifetime still remained as one of the bottle-neck obstacles for the practical applicat... Rechargeable Li-O2 batteries have attracted considerable interests because of their exceptional energy density. However, the short lifetime still remained as one of the bottle-neck obstacles for the practical application of rechargeable Li-O2 batteries. The development of efficient cathode catalyst is highly desirable to reduce the energy barrier of Li-O2 reaction and electrode failure. In this work, we report a facile strategy for the fabrication of a high-per- formance cathode catalyst for rechargeable Li-O2 batteries by the encapsulation of high content of active Fe nanorods into N-doped carbon nanotubes with high stability (denoted as Fe@NCNTs). First-principles calculations reveal that the synergistic charge transfer and redistribution between the interface of Fe nanorods, the CNT walls and the active N dopants greatly facilitate the chemisorption and subsequent dissociation of O2 molecules into the epoxy intermediates on the carbon surface, which benefits the uniform growth of nanosized discharge products on CNT surface and thus boosts the reversibility of Li-O2 reactions. As a result, the cathode with Fe@NCNT catalyst exhibRs long cycling sta- bility with high capacities (1000 mA h g-1 for 160 cycles and 600 mA h g-t for 270 cycles). Based on the total mass of Fe@NCNTs + Li2O2, high gravimetric energy densities of 2120-2600 W h kg-~ can be achieved at the power densities of 50-795 W kg-1. 展开更多
关键词 Li-O2battery cathodecatalyst N-dopedcarbonnan-otube Fe nanorods first-principles calculation
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