Improving the Energy Density and Power Density of CF_X by Mechanical Milling: A Primary Lithium Battery Electrode

M. Anji Redely; Ben Breitung; Maximilian Fichtner

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Improving the Energy Density and Power Density of CF_X by Mechanical Milling: A Primary Lithium Battery Electrode

机译：通过机械研磨提高CF_X的能量密度和功率密度：一次锂电池电极

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The effect of high energy ball milling on the electrochemical performance of graphite fluoride (CF_x) was investigated. A significant improvement was observed in both energy density and power density. The volumetric energy density was increased up to a factor of 3 with ball milled materials compared with pristine materials. The gravimetric energy density was increased up to a factor of 2, depending on the discharge rates. At 6C the ball milled material still delivered 40% of its nominal capacity, whereas the pristine material did not exhibit any capacity any more. We achieved the power density of 9860 W/kg with a gravimetric energy density of 800 Wh/kg for the optimized material.

机译：研究了高能球磨对氟化石墨（CF_x）电化学性能的影响。观察到能量密度和功率密度都有显着改善。与原始材料相比，球磨材料的体积能量密度增加到3倍。重量能量密度增加到2倍，具体取决于放电速率。在6C时，球磨后的物料仍提供其标称容量的40％，而原始物料不再显示任何容量。优化材料的功率密度为9860 W / kg，重量能量密度为800 Wh / kg。

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《ACS applied materials & interfaces 》 |2013年第21期| 共5页
作者
M. Anji Redely; Ben Breitung; Maximilian Fichtner;
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正文语种 eng
中图分类化学工业 ;
关键词
Li/CF_X primary battery; mechanical milling; high power density; high energy density;

机译：Li / CF_X原电池;机械铣削;高功率密度;高能量密度;

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1. Improving the Energy Density and Power Density of CF_X by Mechanical Milling: A Primary Lithium Battery Electrode [J] . M. Anji Redely, Ben Breitung, Maximilian Fichtner ACS applied materials & interfaces . 2013 ,第21期

机译：通过机械研磨提高CF_X的能量密度和功率密度：一次锂电池电极
2. High-power-density, high-energy-density fluorinated graphene for primary lithium batteries [J] . Zhong Guiming, Chen Huixin, Huang Xingkang, Frontiers in Chemistry . 2018 ,第2016期

机译：用于一次锂电池的高功率密度，高能量密度的氟化石墨烯
3. Development of high energy density small flat spiral cells and battery pack based on lithium/carbon monofluoride (Li/CF_x) [J] . E.I. Eweka, C.O. Giwa, G.O. Mepsted Journal of power sources . 2006 ,第2期

机译：基于锂/一氟化碳（Li / CF_x）的高能量密度小型扁平螺旋电池和电池组的开发
4. Development of high energy density small flat spiral cells and battery pack based on lithium / carbon monofluoride (Li/CF_X) [C] . E. I. Eweka, C. O. Giwa, G. O. Mepsted, International Power Sources Symposium . 2005

机译：基于锂/碳单氟化锂的高能密度小扁平螺旋电池和电池组的研制（Li / Cf_x）
5. Enabling higher energy and power density lithium ion batteries through electrode design and the integration of solid-state electrolytes. [D] . Kim, Yunsung. 2015

机译：通过电极设计和固态电解质的集成实现更高能量和功率密度的锂离子电池。
6. High-Power-Density High-Energy-Density Fluorinated Graphene for Primary Lithium Batteries [O] . Guiming Zhong, Huixin Chen, Xingkang Huang, 2018

机译：用于一次锂电池的高功率密度高能量密度的氟化石墨烯
7. Lithium Metal Negative Electrode for Batteries with High Energy Density: Lithium Utilization and Additives [O] . Kazuki YOSHII, Hikari SAKAEBE 2020

机译：用于高能量密度的电池锂金属负极：锂利用和添加剂

Improving the Energy Density and Power Density of CF_X by Mechanical Milling: A Primary Lithium Battery Electrode

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