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    • 10. 发明授权
    • Graphite powder suitable for negative electrode material of lithium ion secondary batteries
    • 石墨粉适用于锂离子二次电池的负极材料
    • US06576369B1
    • 2003-06-10
    • US09138561
    • 1998-08-24
    • Koji MoriguchiMitsuharu YonemuraKazuhito KameiNoriyuki NegiMasaru AbeHideya Kaminaka
    • Koji MoriguchiMitsuharu YonemuraKazuhito KameiNoriyuki NegiMasaru AbeHideya Kaminaka
    • C01B3104
    • H01M4/583C01B32/20C01P2002/60C01P2006/12C01P2006/40H01M4/133H01M4/622H01M4/623H01M6/10H01M10/0525
    • A graphite powder has surface closed-end structures in which the graphite c-plane layers of the graphite layer crystal lattices have closed-ends on the surface of the graphite powder by linking the ends of one or more pairs of the c-plane layers, leaving interstices which are open on the surface of the graphite. The number of open interstices is at least 100 and at most 1500 per micrometer in a c-axis direction of the graphite. Preferably, the graphite powder has a specific surface area of 1.0 m2/g or less. Such a graphite powder can be prepared either by graphitizing a carbon material, which has been pulverized at a high speed under well-controlled conditions before and/or after the carbonization, or by subjecting a carbon material, which has been pulverized under well-controlled conditions before and/or after the carbonization, to graphitization and then to oxidative heat treatment at a temperature of 600-800° C. and finally to heat treatment at a temperature of 800° C. or higher in an inert gas. The graphite powder can be used to produce negative electrodes of lithium ion secondary batteries having a high discharge capacity of at least 320 mAh/g and a high charge/discharge coulombic efficiency of at least 90%.
    • 石墨粉末具有表面封闭端结构,其中石墨层晶格的石墨c面层通过连接一对或多对c面层的端部而在石墨粉末的表面上具有封闭端, 留下在石墨表面开放的间隙。 在石墨的c轴方向上,开口间隙的数量为至少100个,最高为1500微米。 优选石墨粉的比表面积为1.0m 2 / g以下。 这样的石墨粉末可以通过在碳化之前和/或之后在良好控制的条件下高速粉碎的碳材料进行石墨化,或者通过将被粉碎的碳材料进行良好控制 在碳化之前和/或之后的条件进行石墨化,然后在600-800℃的温度下进行氧化热处理,最后在惰性气体中在800℃以上的温度下进行热处理。 该石墨粉末可用于制造具有至少320mAh / g的高放电容量和高充放电库仑效率至少为90%的锂离子二次电池的负极。