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    • 5. 发明授权
    • Graphene composite and method of producing the same
    • 石墨烯复合材料及其制造方法
    • US09587134B2
    • 2017-03-07
    • US14973100
    • 2015-12-17
    • GRAPHENE PLATFORM CORPORATION
    • Shoji HasegawaNagisa Kamiya
    • H01B1/04C01B31/04B82Y30/00C09D11/52
    • C09D11/52
    • Provided is a graphite-based carbon material useful as a graphene precursor, from which graphene is easily exfoliated when the graphite-based carbon material is useful as a precursor and from which a highly-concentrated graphene dispersion can easily be obtained. The graphite-based carbon material is a graphite-based carbon material useful as a graphene precursor wherein a Rate (3R) based on an X-ray diffraction method, which is defined by following Equation 1 is 31% or more: Rate(3R)=P3/(P3+P4)×100  Equation 1 wherein P3 is a peak intensity of a (101) plane of the rhombohedral graphite layer (3R) based on the X-ray diffraction method, and P4 is a peak intensity of a (101) plane of the hexagonal graphite layer (2H) based on the X-ray diffraction method.
    • 提供了一种石墨基碳材料,其可用作石墨烯前体,当石墨基碳材料用作前体时,石墨烯易于剥离,并且可以容易地获得高浓度的石墨烯分散体。 石墨基碳材料是石墨基碳材料,其可用作石墨烯前体,其中由以下等式1定义的基于X射线衍射方法的速率(3R)为31%以上:速率(3R) = P3 /(P3 + P4)×100等式1其中P3是基于X射线衍射方法的菱方石墨层(3R)的(101)面的峰强度,P4是( 101)平面的六方石墨层(2H)基于X射线衍射法。
    • 6. 发明申请
    • GRAPHENE COMPOSITE AND METHOD OF PRODUCING THE SAME
    • 石墨复合材料及其制造方法
    • US20160251530A1
    • 2016-09-01
    • US14973100
    • 2015-12-17
    • GRAPHENE PLATFORM CORPORATION
    • Shoji HasegawaNagisa Kamiya
    • C09D11/52
    • C09D11/52
    • Provided is a graphite-based carbon material useful as a graphene precursor, from which graphene is easily exfoliated when the graphite-based carbon material is useful as a precursor and from which a highly-concentrated graphene dispersion can easily be obtained. The graphite-based carbon material is a graphite-based carbon material useful as a graphene precursor wherein a Rate (3R) based on an X-ray diffraction method, which is defined by following Equation 1 is 31% or more: Rate(3R)=P3/(P3+P4)×100  Equation 1 wherein P3 is a peak intensity of a (101) plane of the rhombohedral graphite layer (3R) based on the X-ray diffraction method, and P4 is a peak intensity of a (101) plane of the hexagonal graphite layer (2H) based on the X-ray diffraction method.
    • 提供了一种石墨基碳材料,其可用作石墨烯前体,当石墨基碳材料用作前体时,石墨烯易于剥离,并且可以容易地获得高浓度的石墨烯分散体。 石墨基碳材料是石墨基碳材料,其可用作石墨烯前体,其中由以下等式1定义的基于X射线衍射方法的速率(3R)为31%以上:速率(3R) = P3 /(P3 + P4)×100等式1其中P3是基于X射线衍射方法的菱方石墨层(3R)的(101)面的峰强度,P4是( 101)平面的六方石墨层(2H)基于X射线衍射法。