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作 者:Mária Filkusová Andrea Fedorková Renáta Oriňáková Andrej Oriňák Zuzana Nováková Lenka Skantárová
机构地区:[1]Department of Physical and Theoretical Chemistry, Faculty of Science, Comenius University, Mlynská|Dolina, SK-842 15 Bratislava 4, Slovak Republic [2]Department of Physical Chemistry, Faculty of Science, P.J. afárik University, Moyzesova 11, SK-04154 Koice, Slovak Republic [3]Department of Electrical and Electronic Technology, Faculty of Electrical Engineering and Communication, Brno University of Technology, Czech Republic [4]Department of Analytical Chemistry, Faculty of Science, Comenius University, Mlynská|Dolina, SK-842 15 Bratislava 4, Slovak Republic
出 处:《新型炭材料》2013年第1期1-7,共7页New Carbon Materials
基 金:the financial support of theresearch by the Slovak Grant Agency VEGA project No.1/0211/12 and VVGS 51/12-13;project CZ.1.07/2.3.00/30.0039 of Brno University of Tech-nology
摘 要:合成了一种新型的LiFePO4/多壁纳米碳管(MWCNTs)复合正极材料。通过MWCNTs和PPy-PEG粘结剂有机地在LiFePO4颗粒间构成三维网络导电结构,并借助SEM、TGA和高分辨裂解气相色谱,研究了LiFePO4-MWCNT正极材料的表面形貌和热稳定性。结果表明,500℃下该材料的热分解程度非常小,说明MWCNTs和PPy-PEG的复合是提高LiFePO4正极材料的热稳定性和改善表面形貌的有效途径。A novel network composite cathode was prepared by mixing LiFePO4 particles with multiwalled carbon nanotubes (MWCNTs). LiFePO4 particles were connected by MWCNTs and a polymer binder, polypyrrole-polyethylene glycol (PPy-PEG), to form a three-dimensional network. The surface morphology and thermal stability of the LiFePOa-MWCNT/PPy-PEG composite cathode were investigated by scanning electron microscopy, thermogravimetric analysis and pyrolysis capillary gas chromatography. It was found by scanning electron microscopy that the particle size of LiFePO4 in the LiFePO4-MWCNT sample was smaller than that of the pure LiFePO4 and the structure in the LiFePO4-MWCNT/PPy-PEG sample was more homogeneous than in the LiFePO4- MWCNT/PPy sample. Thermogravimetric analysis indicated that PPy-PEG blend polymer in combination with MWCNTs considera- bly improves the thermal stability of the final cathode material. Pyrolysis capillary gas chromatography measurements at 500 ℃ showed a decreased thermal stability of organic species contained in the composite cathode material. The addition of MWCNTs was an effective way to increase homogeneity and thermal stability of the LiFePO4-MWCNT/PPy-PEG cathode material.
分 类 号:TM912[电气工程—电力电子与电力传动]
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