▎ 摘　　要

NOVELTY - The device has a graphene film layer (2) covered on a surface of an insulating substrate (1), where the insulating substrate is made of glass, quartz, rubber or plastic. Positive and negative electrodes (3) are respectively connected with two ends of the graphene film layer. The insulating substrate and the graphite film layer are coated with ion solution and formed as an integral structure to form an acute angle on a horizontal plane. The positive and negative electrodes are connected to a load through a lead. A surface of the graphene film layer is coated with ion solution based on bubble motion to form an electric double layer. The graphene film layer performs charging or discharging process at front end and a tail end of a bubble to supply power to the load. USE - Marine wireless sensing network graphene-based motion bubble power generating device. ADVANTAGE - The device generates power at two ends of a graphene through bubble movement, realizes energy collection, and detects size, moving speed, direction and volume of the bubble. The device has simple integral structure, high economical benefit, and strong environment adaptability. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for a marine wireless sensing network graphene-based motion bubble power generating device manufacturing method. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic view of a marine wireless sensing network graphene-based motion bubble power generating device. Insulating substrate (1) Graphene film layer (2) Positive and negative electrodes (3)