- Patent Title: Composite conductive material, power storage device, conductive dispersion, conductive device, conductive composite and thermally conductive composite and method of producing a composite conductive material
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Application No.: US14764525Application Date: 2015-03-13
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Publication No.: US09815987B2Publication Date: 2017-11-14
- Inventor: Shoji Hasegawa , Nagisa Kamiya
- Applicant: GRAPHENE PLATFORM CORPORATION
- Applicant Address: JP
- Assignee: GRAPHENE PLATFORM CORPORATION
- Current Assignee: GRAPHENE PLATFORM CORPORATION
- Current Assignee Address: JP
- Agency: Hayes Soloway P.C.
- Priority: WOPCT/JP2014/073838 20140909; WOPCT/JP2015/055977 20150227
- International Application: PCT/JP2015/057593 WO 20150313
- International Announcement: WO2016/002261 WO 20160107
- Main IPC: H04B1/24
- 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
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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