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PAM Templating Mechanism for Synthesis of A Novel LiFePO_4 Cathode Material 被引量:1

PAM Templating Mechanism for Synthesis of A Novel LiFePO_4 Cathode Material
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摘要 A novel templated LiFePO_4 cathode material was prepared with linear polyacrylamide, which exhibited excellent electrochemical properties, such as a 109.3 mA·h/g capacity at a rate of C/3 and a 120 mA·h/g capacity at a rate of C/6 as well as a good cycliability. We proposed the templating mechanism based upon the precursors′ TG-DTA curves, X-ray diffraction patterns and FTIR spectra of the samples at different temperatures. A tapping-mode atomic force microscope was used to investigate the surfaces of the end products. We found that the polyacrylamide template produced metal organic compounds in the cross-linked gel precursor, and thereby modified the crystallization and particle surfaces during calcining. The template was “removed” in the end, which was partially pyrolyzed into the spiral carbon to form a conductive network with nanocrys\|talline LiFePO_4 highly monodispersed in it. A novel templated LiFePO_4 cathode material was prepared with linear polyacrylamide, which exhibited excellent electrochemical properties, such as a 109.3 mA·h/g capacity at a rate of C/3 and a 120 mA·h/g capacity at a rate of C/6 as well as a good cycliability. We proposed the templating mechanism based upon the precursors′ TG-DTA curves, X-ray diffraction patterns and FTIR spectra of the samples at different temperatures. A tapping-mode atomic force microscope was used to investigate the surfaces of the end products. We found that the polyacrylamide template produced metal organic compounds in the cross-linked gel precursor, and thereby modified the crystallization and particle surfaces during calcining. The template was “removed” in the end, which was partially pyrolyzed into the spiral carbon to form a conductive network with nanocrys\|talline LiFePO_4 highly monodispersed in it.
出处 《Chemical Research in Chinese Universities》 SCIE CAS CSCD 2005年第3期309-314,共6页 高等学校化学研究(英文版)
基金 SupportedbytheKeyProgramofScienceandTechnologyofHenanProvince(No.0522020300).
关键词 LiFePO_4 Lithium ion battery Template MECHANISM Tapping-mode atomic force microscope LiFePO_4, Lithium ion battery, Template, Mechanism, Tapping-mode atomic force microscope
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