Abstract: A method for coating a metal workpiece with graphene includes exposing the metal workpiece to a carbon-containing precursor gas and a hydrogen gas in a processing chamber in a first phase, and to the carbon-containing precursor gas, the hydrogen gas and a first carrier gas in the processing chamber in a second phase after the first phase. A first flow rate of the carbon-containing precursor gas into the processing chamber is higher than a second flow rate of the carbon-containing precursor gas into the processing chamber, and a first flow rate of the hydrogen gas into the processing chamber is higher than a second flow rate of the hydrogen gas into the processing chamber. A first total gas pressure in the processing chamber in the first phase is lower than a second total gas pressure in the processing chamber in the second phase.

Abstract: A multilayer structure comprises a plurality of composite structures in a stacked configuration, each having a copper layer having a thickness of no larger than 25 ?m, and first and second graphene layers sandwiching the copper layer. The first graphene layer of a first composite structure among the plurality of composite structures directly contacts a second graphene layer of a second composite structure among the plurality of composite structures to form a graphene bi-layer structure. Either the first or second graphene layer of the graphene bi-layer structure comprises silver atoms, but not both. The silver atoms are ring-centered on graphene rings and delocalized inside the graphene rings.

Abstract: A method for forming a multilayer composite structure comprises providing a first sheet comprising a copper-comprising layer sandwiched by first and second graphene layers, wrapping the first sheet to form a first rod, and compacting the first rod to form a first multilayer composite structure.

Abstract: A wire-drawing method comprises providing a rod comprising a wrapped sheet, wherein the sheet comprises a plurality of copper layers and a plurality of graphene layers; extracting an inner layer of the wrapped sheet from the rod to form a spiral; and forming a wire by feeding the spiral through an opening of a die unit.

Abstract: A method for forming a multilayer composite structure comprises providing a first sheet comprising a copper-comprising layer sandwiched by first and second graphene layers, wrapping the first sheet to form a first rod, and compacting the first rod to form a first multilayer composite structure.

Abstract: A composite structure comprises a copper layer having a thickness of no larger than 25 ?m, and first and second graphene layers sandwiching the copper layer.

Abstract: A wire-drawing method comprises providing a rod comprising a wrapped sheet, wherein the sheet comprises a plurality of copper layers and a plurality of graphene layers; extracting an inner layer of the wrapped sheet from the rod to form a spiral; and forming a wire by feeding the spiral through an opening of a die unit.