▎ 摘　　要

NOVELTY - The method involves placing a substrate comprising transition metal surface, in the reaction chamber of furnace. The temperature in the reaction chamber is increased to 1000 degrees c. The reaction gas is passed into the reaction chamber without hydrogen gas and at a pressure in the reaction chamber of less than 0.5 Torr, after the temperature in the reaction chamber reaches 1000 degrees c. The reaction gas is ceased. The temperature in the reaction chamber is decreased at a controlled rate of less than about 100 degrees c/min. USE - Method of directly synthesizing uniform multilayer graphene of semiconductor device and transparent conductor (all claimed) used in touch screen display, photovoltaic device, and touch panel. ADVANTAGE - The uniform bilayer graphene sheets are stacked together, hence the manufacturing cost and manufacturing time of the graphene can be reduced effectively while preventing the interlayer defects. The graphene having lower sheet resistance can be achieved. The performance of the semiconductor device can be improved. Uniform multilayer graphene can be easily synthesized or grown on a chemical vapor deposition (CVD) substrate in a CVD reaction chamber. The graphene layers can be easily deposited in a single CVD process or process cycle without the need to produce multiple separate mono-layers and to stack the mono-layers on top of one another. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are included for the following: (1) transparent conductor is provided with multilayer graphene comprising uniform bilayer graphene films which are synthesized by chemical vapor deposition and are stacked together; (2) method of producing multilayer graphene, involves maintaining the flow rate of hydrogen gas and the reaction chamber pressure. The temperature in the reaction chamber is maintained at about 1000 degrees c. The reaction chamber is evacuated. The reaction chamber is purged with hydrogen gas; (3) method of manufacturing multilayer graphene film (10), involves synthesizing uniform multilayer graphene. The uniform graphene sheet is provided. The uniform multilayer graphene sheet is stacked with uniform graphene sheet. The uniform bilayer graphene is synthesized. The graphene is transferred to the silicon substrate. The multilayer graphene uniform bilayer graphene are doped; and (4) multilayer graphene film is formed with same number of graphene layers throughout a major portion of the sheet. The multi-layer graphene film is provided with dimensions of about two inches. DESCRIPTION OF DRAWING(S) - The drawing shows a photographic view of the multilayer graphene film. Multilayer graphene film (10)