▎ 摘　　要

NOVELTY - The method comprises: disposing a first graphene layer on a carrier; disposing a second graphene layer on the first graphene layer to form a graphene sheet disposed on the carrier; transferring the graphene sheet disposed on the carrier onto a substrate; removing (S150) the carrier; and laminating (S140) the first graphene layer and the second graphene layers to be integrated with one another. The carrier comprises a thermal release tape. The step of transferring the graphene sheet onto the substrate comprises disposing a heated laminator on the carrier, and compressing the carrier. USE - The method is useful for fabricating multi-layered graphene. ADVANTAGE - The method is capable of effectively and economically fabricating multi-layered graphene with high electrical and thermal conductivity and elasticity. DETAILED DESCRIPTION - The method comprises: disposing a first graphene layer on a carrier; disposing a second graphene layer on the first graphene layer to form a graphene sheet disposed on the carrier; transferring the graphene sheet disposed on the carrier onto a substrate; removing (S150) the carrier; and laminating (S140) the first graphene layer and the second graphene layers to be integrated with one another. The carrier comprises a thermal release tape. The step of transferring the graphene sheet onto the substrate comprises disposing a heated laminator on the carrier, and compressing the carrier by using the heated laminator. The step of disposing the first graphene layer on the carrier comprises disposing the first graphene layer on a first catalyst metal layer, disposing the carrier on the first graphene layer, and removing the first catalyst metal layer. The step of disposing the second graphene layer on the first graphene layer comprises: disposing the second graphene layer on a second catalyst metal layer; disposing the second graphene layer disposed on the second catalyst metal layer on the first graphene layer that is disposed on the carrier; removing the second catalyst metal layer; disposing N different graphene layers on the first graphene layer; and disposing the second graphene layer such that a surface of the second graphene layer contacts the first graphene layer. The step of disposing the N different graphene layers comprises: disposing the graphene layer on the second catalyst metal layer; disposing the graphene layer disposed on the second catalyst metal layer on the first graphene layer that is disposed on the carrier; and removing the second catalyst layer, where N is a natural number greater than or equal to 2. The first and/or second graphene layers has a damaged region. The second graphene layer is opposite to the other surface of the second graphene layer contacting the carrier. The step of laminating the first and second graphene layers comprises: conveying a stacked structure including the first graphene layer and the second graphene layer toward a laminator; and integrating the first graphene layer and the second graphene layer with one another using the laminator. The laminator radiates heat. An INDEPENDENT CLAIM is included for a graphene sheet. DESCRIPTION OF DRAWING(S) - The figure shows a flowchart of a method of fabricating multi-layered graphene. Providing first graphene layer (S110) Providing second graphene layer (S120) Disposing first and second graphene layers (S130) Laminating the first graphene layer and the second graphene layers (S140) Removing the carrier. (S150)