▎ 摘　　要

NOVELTY - The terminal has an electrode that is a transparent electrode (1) made of multilayer graphene. The transparent electrode is arranged on the top of the battery layer. The battery layer is sequentially provided with an upper surface passivation layer (2), an emitter area (3), a hole transport layer (4), a silicon substrate (5), and a silver substrate (6) from top to bottom. The emitter area is set as an n-type doped area or a p-type doped area of a single crystal silicon cell. The hole transport layer is composed of a single layer of graphene. A schottky barrier is formed on the graphene interface by inserting the hole transport layer between the n-type doped region and the p-type doped region of the single crystal silicon cell. The p-n junction of the photovoltaic cell is converted into a p-i-n junction, which absorbs photons and converts them into carriers. The hole transmission rate is increased by reducing the recombination rate and blocking the electron excitation transition. USE - Laser wireless charging receiving terminal used in laser wireless charging system (claimed). ADVANTAGE - The receiving terminal works stably in a high energy density laser irradiation environment, and performs high-efficiency monochromatic light photoelectric conversion, which significantly improves the efficiency and stability of the laser wireless charging system. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a laser wireless charging system. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic view of the laser wireless charging receiving terminal. Transparent electrode (1) Upper surface passivation layer (2) Emitter area (3) Hole transport layer (4) Silicon substrate (5) Silver substrate (6)