▎ 摘　　要

NOVELTY - The detector has a carbon insulating substrate (1) whose surface is coated with an intrinsic carbon nano-tube film (2). A first silver electrode (3) and a second silver electrode (5) are formed with an intrinsic graphene film (4) for performing ohmic contact process. The intrinsic carbon nano-tube film is coated with the intrinsic graphene film. The carbon insulating substrate is coated with a silicon dioxide layer, where thickness of the silicon dioxide layer is not less than 300nm. USE - Graphene/carbon nano tube film Schottky junction photoelectric detector. ADVANTAGE - The detector is simple in structure and convenient to use, and has high production efficiency, less resistivity and wide application range, and increases light detecting efficiency for about 300-1050nm. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for a graphene/carbon nano tube film Schottky junction photoelectric detector manufacturing method. DESCRIPTION OF DRAWING(S) - The drawing shows a side view of a graphene/carbon nano tube film Schottky junction photoelectric detector. Carbon insulating substrate (1) Intrinsic carbon nano-tube film (2) Silver electrodes (3, 5) Intrinsic graphene film (4)