▎ 摘 要
NOVELTY - The structure has a graphene layer fixed to a porous metal foam substrate, where the porous metal foam substrate and the graphene layer are compressed to form a graphene-metal composite and the porous metal foam substrate is made of nickel or copper foam and porosity of the porous metal foam substrate is about 70%. The porous metal foam substrate and the graphene are compressed to close voids in the porous metal foam substrate and makes compressed porous metal foam substrate with graphene applied thinner than thickness of non-compressed porous metal foam substrate. A metal layer is applied to the graphene layer. USE - High conductivity graphene-metal composite structure for use in various applications. Uses include but are not limited to batteries for electric drive automobiles, filter material for water filters, bendable LCD screens for consumer electronics, nanoelectronics or light weight body panels for commercial aircrafts. ADVANTAGE - The structure ensures thermal, electrical, and shielding properties to travel in co-planar direction, thus adding capacity to mass and amplifying composites ability. The structure creates thermal pathways to facilitate dissipate heat through a structural element through a metal foam composite. The structure increases thermal and electrical capacity of graphene. DESCRIPTION OF DRAWING(S) - The drawing shows a cross sectional view of a roll bonded nickel and copper foil enhanced with graphene. Nickel foil (702) Copper layer (704)