▎ 摘　　要

NOVELTY - The cell has a titanium oxide electrode layer formed with an opening groove that is passed through a silicon dioxide insulating layer, a gold electrode and a titanium electrode layer. A graphene oxide intermediate layer is arranged with a notch and connected with a bottom part of a P-type single-crystal silicon substrate. A top part of the P-type single-crystal silicon substrate is connected with a top part of a silicon dioxide insulating layer. A molybdenum thin film layer is arranged on the graphene oxide intermediate layer. An oxidized graphene layer is covered on the titanium oxide electrode layer. A light transmission film layer is covered on the molybdenum thin film layer as a window layer of a battery. USE - Vulcanized Molybdenum thin film heterojunction solar cell. ADVANTAGE - The light transmission film layer can isolates air so as to increase stability of cell main body and realize hydrogen bond in a graphene oxide and a P-type single-crystal silicon substrate surface, thus reducing a surface state of the P-type single-crystal silicon substrate and improving open circuit voltage and short circuit current of the battery and conversion efficiency of the cell main body. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for a vulcanized Molybdenum thin film heterojunction solar cell manufacturing method. DESCRIPTION OF DRAWING(S) - The drawing shows a front view of a vulcanized molybdenum thin film heterojunction solar cell in partial section.