Organic solar cell for current-voltage test and preparation method thereof

What is claimed is: 1 . An organic solar cell for a current-voltage test, comprising a substrate S 0 , an anode layer S 1 , a hole transport layer S 2 , an active layer S 3 , an electron transport layer S 4 and an electrode coating S 5 successively, wherein the substrate S 0 has a preset ITO pattern. 2 . The organic solar cell for the current-voltage test according to claim 1 , wherein the substrate S 0 is made of a square glass material. 3 . The organic solar cell for the current-voltage test according to claim 2 , wherein the ITO coating of the substrate S 0 with the preset ITO pattern is the anode layer Si, and the regions of the ITO coating are a plurality of rectangles N 1 with long sides of L 1 and wide sides of M 1 , and distributed evenly in a plurality of positions on the surface of the substrate discretely. 4 . The organic solar cell for the current-voltage test according to claim 3 , wherein rectangular regions N 2 without the hole transport layer S 2 , the active layer S 3 and the electron transport layer S 4 coating are arranged at a parallel edge of the substrate S 0 perpendicular to the direction of ITO to expose the ITO coating; and the rectangular regions N 2 without the coating are perpendicular to the long side L 1 of the region N 1 of the rectangle ITO and parallel to the wide side M 1 of the region N 1 of the rectangle ITO, and are in one-to-one correspondence with the positions of current-voltage test electrodes. 5 . The organic solar cell for the current-voltage test according to claim 1 , wherein the hole transport layer S 2 is PEDOT: PSS. 6 . The organic solar cell for the current-voltage test according to claim 1 , wherein the active layer S 3 comprises a donor material and an acceptor material, and the donor material comprises PM6, D18 or B1; and the acceptor material comprises Y6, BO-4C1, BTP-eC9, L8-BO or OSe. 7 . The organic solar cell for the current-voltage test according to claim 1 , wherein the electron transport layer S 4 is PDIN, PDINN or PNDIT-F3N. 8 . The organic solar cell for the current-voltage test according to claim 4 , wherein the electrode coating S 5 comprises L-shaped regions N 3 and rectangular regions N 4 which are distributed evenly on the surface of the substrate discretely, and the rectangular regions N 4 are in one-to-one correspondence with the rectangular regions N 1 of the anode layer Si; and the long side L 4 of the rectangular region N 4 is less than the long side L 1 of the rectangular region N 1 , and the wide side M 4 of the rectangular region N 4 is equal to the wide side M 1 of the rectangular region N 1 ; the L-shaped region N 3 is composed of a rectangle N 31 and a rectangle N 32 , the wide side M 4 of the rectangular region N 4 <the long side L 311 of N 31 ≤the long side L 321 of N 32 , and the wide side M 311 of N 31 is equal to the wide side M 4 of the rectangular region N 4 ; the wide side M 321 of N 32 ≤the wide side M 1 of the rectangular region N 1 , and the long side L 4 of the rectangular region N 4 <the long side L 321 of N 32 ≤the long side Ll of the rectangular region N 1 . 9 . The organic solar cell for the current-voltage test according to claim 8 , wherein the L-shaped regions N 3 and the rectangular regions N 4 have opposite polarities; and the L-shaped regions N 3 are cathode layers of the organic solar cell; and the rectangular regions N 4 and the ITO are conducted and jointly used as anodes of the organic solar cell. 10 . The organic solar cell for the current-voltage test according to claim 8 , wherein the long side L 2 of the rectangular region N 2 without the coating is equal to the side length of the substrate S 0 , and the wide side M 2 of the rectangular region N 2 without the coating≤the long side L 4 of the rectangle N 4 . 11 . The organic solar cell for the current-voltage test according to claim 9 , wherein an arrangement region Q 1 of the cell is a region where the anode layer ITO S 1 , the hole transport layer S 2 , the active layer S 3 , the electron transport layer S 4 and the cathode layer N 3 on the substrate S 0 with the preset ITO pattern are overlapped. 12 . A preparation method of the organic solar cell for the current-voltage test in claim 1 , comprising the following steps: I. cleaning and treating the substrate S 0 with the preset ITO pattern by an ultrasonic cleaning method and an ultraviolet ozone method; II. preparing the hole transport layer S 2 , the active layer S 3 and the electron transport layer S 4 successively on the surface of the substrate S 0 by a spin-coating method, wherein spin-coating area is the size of the substrate S 0 ; III. removing the spin-coating coating from the parallel edge of the surface of the substrate S 0 perpendicular to the direction of ITO to the interior of the surface of the substrate S 0 to form rectangular regions N 2 without the spin-coating coating; IV. evaporating a metallic silver electrode S 5 on the substrate through a vacuum evaporation method of the substrate obtained in step III combined with a mask plate with a preset pattern to obtain the organic solar cell for the current-voltage test.