ZHU Honglin, JIANG Hedong, LI Jiake, GUO Pingchun, WANG Yanxiang
(Jingdezhen Ceramic University, Jingdezhen 333403, Jiangxi, China)
Abstract: SnO2 has been widely used as an electron transport material in perovskite solar cells (PSCs), due to its high optical transmittance and high electron mobility. However, SnO2 films prepared by using sol-gel method have poor crystallinity owing to the low preparation temperature. There are many defects in the films, which led to the recombination of the photoelectrons, thus reducing the photoelectric conversion efficiency (PCE). The SnO2 electron transport layers (ETLs) were treated with deionized water, methanol, ethanol and isopropanol. The effects of solvothermal treatments on performance of SnO2 ETLs and PSCs were studied. With XRD, SEM, contact angle, AFM, UV-Vis, J-V curves and IPCE, physical phase, morphology, roughness, optical performance and photoelectric performance of the samples were characterized. It is found that hydrothermal and solvothermal treatment can increase crystallinity of SnO2 and visible transmittance of the films, thus enhancing the interfacial contact between ETLs and the perovskite layers. As a result, PCE of the PSCs were effectively improved. Photoelectric performance of the PSCs assembled with the hydrothermally treated SnO2 was optimized, with the PCE of the cell to be 15.48%, which is 13.8% higher than the PCE (13.60%) of the untreated cell. In addition, the open-circuit voltage (Voc) was 1.09 V, the short-circuit current density (Jsc) was 19.32 mA•cm−2, and the fill factor (FF) was 73.18%.
Key words: perovskite solar cell; SnO2 electron transport layers; hydrothermal; solvothermal