▎ 摘　　要

NOVELTY - The sheet has a photo-anode substrate (1), an anode layer, an electrolyte layer (2) and an electrode substrate (3) orderly arranged from top to bottom direction, where the electrolyte layer is made of transparent and colorless electrolytic solution. A sealant i.e. polyvinyl butyral of graphene is sealed between the photo-anode substrate and the electrode substrate. A graphene coating layer (4) is coated on an upper surface of the electrode substrate and provided with a three-dimensional porous graphene composite material that is formed with a multi-layer net-shaped topological structure. The graphene coating layer is formed with a laser hole corresponding to gaps at a node of the multi-layer net-shaped topological structure. A titanium dioxide layer (5) and a dye sensitizing layer (6) are distributed on the node. USE - Graphene composite transparent power generating sheet for use in a building window or a curtain wall. ADVANTAGE - The graphene coating layer is formed with the laser hole at corresponding node interval to effectively ensure better transparency of a sheet body and provide better transparent lighting function. The sheet utilizes graphene material with high electron mobility to effectively improve power generation efficiency, mounts the sheet body on a window or a curtain wall without changing building appearance feature, increases solar power generation function, promotes energy utilization, and reaches energy-saving effect of a building. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for a graphene composite transparent power generating sheet manufacturing method. DESCRIPTION OF DRAWING(S) - The drawing shows a perspective view of a graphene composite transparent power generating sheet. Photo-anode substrate (1) Electrolyte layer (2) Electrode substrate (3) Graphene coating layer (4) Titanium dioxide layer (5) Dye sensitizing layer (6)