Synthesis of a New Fluorinated Carbon Material

Sheng Bo Jiang; Jia Chun Lu; Ping Huang; Zhi Chao Liu

doi:10.4028/www.scientific.net/AMM.723.660

Paper Titles

Ammonia Leaching Study on Carbonate Oxidised Copper Ores in Yunnan
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Structure and Performances of Plasticized Melt-Spun Polyacrylonitrile Precursor Fiber
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Preparation and Performance of Phase Change Materials of PEGA-g-CEA
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Synthesis of a New Fluorinated Carbon Material
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Room-Temperature Fabrication of Flexible Thin-Film Lithium Batteries Based on Solid Electrolytes and Polyimide Substrates
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Effect of Doping Metal Ions on the Structure Transformation of Octahedral Layer Structure Manganese Oxide
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Study on Preparation of Zn/Al Double Metal Oxide by Ion Exchange Method
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 723Synthesis of a New Fluorinated Carbon Material

Synthesis of a New Fluorinated Carbon Material

Abstract:

Lithium/fluorinated carbon batteries (Li/CF), which have the highest theoretical capacity, long shelf life, a wide operating temperature, safety and non-pollution, have been becoming the best potential storage batteries. Bamboo charcoal with high specific surface area and large layer spacing is suitable for preparing the fluorinated carbon material. By means of ameliorating the preparation process and gas-solid fluorination, the moderate output fluorinated bamboo charcoal was synthesized. Used for the cathode material of lithium battery, it also reveals the novel discharged voltage of 3V versus Li/Li⁺ electrode and the special capacity over 800 mAh⋅g^-1.

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Periodical:

Applied Mechanics and Materials (Volume 723)

Pages:

660-663

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.723.660

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Online since:

January 2015

Authors:

Sheng Bo Jiang*, Jia Chun Lu, Ping Huang, Zhi Chao Liu

Keywords:

Bamboo Charcoal, Fluorinated Carbon, Lithium Batteries, Nitrogen Trifluorinated

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