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公开(公告)号:US09598593B2
公开(公告)日:2017-03-21
申请号:US14863233
申请日:2015-09-23
Applicant: GRAPHENE PLATFORM CORPORATION
Inventor: Shoji Hasegawa , Nagisa Kamiya
CPC classification number: C09D11/52
Abstract: 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.
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公开(公告)号:US20160194474A1
公开(公告)日:2016-07-07
申请号:US14982939
申请日:2015-12-29
Applicant: GRAPHENE PLATFORM CORPORATION
Inventor: Shoji Hasegawa , Nagisa Kamiya
IPC: C08K3/04
CPC classification number: C09C1/46 , C01B32/19 , C01B32/20 , C01B32/225 , C01P2002/72 , C01P2002/74 , C01P2002/77 , C01P2004/54 , C01P2004/61 , C04B14/024 , C04B28/14 , C04B35/5611 , C04B35/6303 , C04B35/83 , C04B2235/425 , C08K3/04 , C08L101/00 , C09C3/04 , C09D5/24 , C09D7/61 , C09D11/03 , C09D11/037 , C09D11/52 , C10M125/02 , C10M169/04 , C10M2201/041 , C10M2203/003 , C10M2203/022 , C10M2207/401 , C10N2230/10 , C10N2240/10 , C10N2250/10 , H01M4/02 , H01M4/366 , H01M4/587 , H01M4/625 , H01M10/052 , H01M10/0525
Abstract: A method of producing the composite reinforcing material includes a step of kneading at least a graphite-based carbon material and a reinforcing material into a base material. The graphite-based carbon material is characterized by having a rhombohedral graphite layer (3R) and a hexagonal graphite layer (2H), wherein a Rate (3R) of the rhombohedral graphite layer (3R) and the hexagonal graphite layer (2H), 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) whereinP3 is a peak intensity of a (101) plane of the rhombohedral graphite layer (3R) based on the X-ray diffraction method, andP4 is a peak intensity of a (101) plane of the hexagonal graphite layer (2H) based on the X-ray diffraction method.
Abstract translation: 制造复合增强材料的方法包括将至少石墨基碳材料和增强材料捏合成基材的步骤。 石墨基碳材料的特征在于具有菱方石墨层(3R)和六方石墨层(2H),其中菱面体石墨层(3R)和六方石墨层(2H)的速率(3R)基于 由下式1定义的X射线衍射法为31%以上:速率(3R)= P3 /(P3 + P4)×100(式1)其中P3是(101)的峰强度, 基于X射线衍射法的菱方石墨层(3R)的平面,P4是基于X射线衍射法的六方石墨层(2H)的(101)面的峰值强度。
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公开(公告)号:US10421863B2
公开(公告)日:2019-09-24
申请号:US15823126
申请日:2017-11-27
Applicant: GRAPHENE PLATFORM CORPORATION
Inventor: Shoji Hasegawa , Nagisa Kamiya
IPC: C08K3/04 , C09C1/46 , C09D7/61 , C09D11/52 , H01M4/587 , H01M4/62 , C09D11/037 , C04B14/02 , C04B28/14 , C04B35/56 , C04B35/63 , C04B35/83 , C09C3/04 , C09D11/03 , C10M125/02 , C09D5/24 , H01M4/36 , H01M10/0525 , C01B32/20 , C01B32/225 , C01B32/19 , C08L101/00 , C10M169/04 , H01M4/02 , H01M10/052
Abstract: A method of producing the composite reinforcing material includes a step of kneading at least a graphite-based carbon material and a reinforcing material into a base material. The graphite-based carbon material is characterized by having a rhombohedral graphite layer (3R) and a hexagonal graphite layer (2H), wherein a Rate (3R) of the rhombohedral graphite layer (3R) and the hexagonal graphite layer (2H), 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.
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公开(公告)号:US09815987B2
公开(公告)日:2017-11-14
申请号:US14764525
申请日:2015-03-13
Applicant: GRAPHENE PLATFORM CORPORATION
Inventor: Shoji Hasegawa , Nagisa Kamiya
IPC: H04B1/24 , C09D11/52 , C09C1/46 , H01M4/587 , H01M4/62 , C09D11/037 , C04B14/02 , C04B28/14 , C04B35/56 , C04B35/63 , C04B35/83 , C09C3/04 , C09D7/12 , C09D11/03 , C10M125/02 , C09D5/24 , H01M4/36 , H01M10/0525 , C01B32/20 , C01B32/225 , C01B32/19 , C08K3/04 , C08L101/00 , C10M169/04 , H01M4/02 , H01M10/052
CPC classification number: C09C1/46 , C01B32/19 , C01B32/20 , C01B32/225 , C01P2002/72 , C01P2002/74 , C01P2002/77 , C01P2004/54 , C01P2004/61 , C04B14/024 , C04B28/14 , C04B35/5611 , C04B35/6303 , C04B35/83 , C04B2235/425 , C08K3/04 , C08L101/00 , C09C3/04 , C09D5/24 , C09D7/61 , C09D11/03 , C09D11/037 , C09D11/52 , C10M125/02 , C10M169/04 , C10M2201/041 , C10M2203/003 , C10M2203/022 , C10M2207/401 , C10N2230/10 , C10N2240/10 , C10N2250/10 , H01M4/02 , H01M4/366 , H01M4/587 , H01M4/625 , H01M10/052 , H01M10/0525
Abstract: A composite conductive material includes at least graphene-like exfoliated from a graphite-based graphite carbon material and a conductive material dispersed in a base material. The graphite-based carbon material has a rhombohedral graphite layer (3R) and a hexagonal graphite layer (2H), wherein a Rate (3R) of the rhombohedral graphite layer (3R) and the hexagonal graphite layer (2H), 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.
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公开(公告)号:US09587134B2
公开(公告)日:2017-03-07
申请号:US14973100
申请日:2015-12-17
Applicant: GRAPHENE PLATFORM CORPORATION
Inventor: Shoji Hasegawa , Nagisa Kamiya
CPC classification number: C09D11/52
Abstract: 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.
Abstract translation: 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。
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Patent Agency Ranking
公开(公告)号:US20160251530A1
公开(公告)日:2016-09-01
申请号:US14973100
申请日:2015-12-17
Applicant: GRAPHENE PLATFORM CORPORATION
Inventor: Shoji Hasegawa , Nagisa Kamiya
IPC: C09D11/52
CPC classification number: C09D11/52
Abstract: 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.
Abstract translation: 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。
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公开(公告)号:US09404058B2
公开(公告)日:2016-08-02
申请号:US14968204
申请日:2015-12-14
Applicant: GRAPHENE PLATFORM CORPORATION
Inventor: Shoji Hasegawa , Nagisa Kamiya
IPC: C10M103/02 , C10M113/02 , C10M125/02
CPC classification number: C10M103/02 , C10M125/02 , C10M2201/041 , C10M2203/1006 , C10M2207/401 , C10N2230/02 , C10N2240/02 , C10N2240/04 , C10N2240/08 , C10N2240/10 , C10N2240/12 , C10N2240/14 , C10N2240/30 , C10N2250/10
Abstract: A composite lubricating material including at least a graphite-based carbon material and/or graphene-like graphite exfoliated from the graphite-based carbon material dispersed in a base material. The graphite-based carbon material is characterized by having a rhombohedral graphite layer (3R) and a hexagonal graphite layer (2H), wherein a Rate (3R) of the rhombohedral graphite layer (3R) and the hexagonal graphite layer (2H), 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.
Abstract translation: 一种复合润滑材料,其至少包含从分散在基材中的石墨基碳材料剥离的石墨基碳材料和/或石墨烯类石墨。 石墨基碳材料的特征在于具有菱方石墨层(3R)和六方石墨层(2H),其中菱面体石墨层(3R)和六方石墨层(2H)的速率(3R)基于 由下式1定义的X射线衍射法为31%以上:速率(3R)= P3 /(P3 + P4)×100式1其中P3是(101)面的峰强度 基于X射线衍射法的菱方石墨层(3R),P4是基于X射线衍射法的六方石墨层(2H)的(101)面的峰值强度。
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8.发明申请COMPOSITE CONDUCTIVE MATERIAL, POWER STORAGE DEVICE, CONDUCTIVE DISPERSION, CONDUCTIVE DEVICE, CONDUCTIVE COMPOSITE AND THERMALLY CONDUCTIVE COMPOSITE 审中-公开复合导电材料,储能装置,导电分散体,导电装置,导电复合材料和导热复合材料公开(公告)号:US20160180981A1
公开(公告)日:2016-06-23
申请号:US14968882
申请日:2015-12-14
Applicant: GRAPHENE PLATFORM CORPORATION
Inventor: Shoji Hasegawa , Nagisa Kamiya
Abstract: A composite conductive material includes at least graphene-like exfoliated from a graphite-based graphite carbon material and a conductive material dispersed in a base material. The graphite-based carbon material has a rhombohedral graphite layer (3R) and a hexagonal graphite layer (2H), wherein a Rate (3R) of the rhombohedral graphite layer (3R) and the hexagonal graphite layer (2H), 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.
Abstract translation: 复合导电材料至少包括从石墨基石墨碳材料剥离的石墨烯和分散在基材中的导电材料。 石墨基碳材料具有菱方石墨层(3R)和六方石墨层(2H),其中菱面体石墨层(3R)和六方石墨层(2H)的速率(3R)基于X 由以下等式1定义的射线衍射法为31%以上:速率(3R)= P3 /(P3 + P4)×100(式1)其中P3是(101)面的峰强度 基于X射线衍射法的菱方石墨层(3R),P4是基于X射线衍射法的六方石墨层(2H)的(101)面的峰值强度。
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9.发明申请GRAPHITE-BASED CARBON MATERIAL USEFUL AS GRAPHENE PRECURSOR, AS WELL AS METHOD OF PRODUCING THE SAME 审中-公开以石墨为基础的碳材料作为石墨前驱物,作为其生产方法公开(公告)号:US20160101980A1
公开(公告)日:2016-04-14
申请号:US14973071
申请日:2015-12-17
Applicant: GRAPHENE PLATFORM CORPORATION
Inventor: Shoji Hasegawa , Nagisa Kamiya
IPC: C01B31/04
CPC classification number: C09C1/46 , C01B32/19 , C01B32/20 , C01B32/225 , C01P2002/72 , C01P2002/74 , C01P2002/77 , C01P2004/54 , C01P2004/61 , C04B14/024 , C04B28/14 , C04B35/5611 , C04B35/6303 , C04B35/83 , C04B2235/425 , C08K3/04 , C08L101/00 , C09C3/04 , C09D5/24 , C09D7/61 , C09D11/03 , C09D11/037 , C09D11/52 , C10M125/02 , C10M169/04 , C10M2201/041 , C10M2203/003 , C10M2203/022 , C10M2207/401 , C10N2230/10 , C10N2240/10 , C10N2250/10 , H01M4/02 , H01M4/366 , H01M4/587 , H01M4/625 , H01M10/052 , H01M10/0525
Abstract: 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.
Abstract translation: 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。
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10.发明申请公开(公告)号:US20170174521A1
公开(公告)日:2017-06-22
申请号:US14651630
申请日:2015-02-27
Applicant: GRAPHENE PLATFORM CORPORATION
Inventor: Shoji Hasegawa , Nagisa Kamiya
IPC: C01B31/04 , C08K3/04 , H01M10/0525 , C09D11/52 , H01M4/62
Abstract: 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 whereinP3 is a peak intensity of a (101) plane of the rhombohedral graphite layer (3R) based on the X-ray diffraction method, andP4 is a peak intensity of a (101) plane of the hexagonal graphite layer (2H) based on the X-ray diffraction method.
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