▎ 摘　　要

NOVELTY - The method involves drawing and cutting a pre-designed sensor layout on a protective film attached to a side of a conductive film (120). A working electrode (150) is formed by exposing another surface of the film positioned in a reaction region of the working electrode and applying and drying a carbon nanotube-chitosan composite material. A nickel sheet is cut and attached to the film located in the reaction region. The conductive film is positioned in a signal line region and a terminal region of each electrode, and then compression-baked in high-temperature environment. A flexible insulating film is attached on a flexible substrate (110). The film is made of composite material selected from electrically conductive metal, carbon black, carbon nano-tube, graphene, conductive polymer and carbon fiber. USE - Flexible biosensor for a biomaterial measuring device (claimed). ADVANTAGE - The space utilization is maximized by folding or bending using a flexible film. The shape, size or shape of the sensor is easily changed, and the cost of manufacturing the sensor time is drastically reduced. The electrochemical sensing efficiency is improved. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for a Flexible biosensor manufacturing method. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic representation of the flexible biosensor for a biomaterial measuring device. 110Flexible substrate 120Conductive film 130Reference electrode 150Working electrode 160Flexible film