关键字：HIGHLY EFFICIENT; THIN-FILMS; NIOX; TEMPERATURE; PERFORMANCE; COMPOSITE; LAYER; CU

摘要：Chemical bath deposition (CBD) is an economical method for the large-scale preparation of high-quality inorganic transport layers. In the field of the n-i-p perovskite solar cells (PSCs), the devices based on n-type CBD-SnO2/CBD-TiO2 structures demonstrate significant advantages in efficiency and stability. However, using CBD method to deposit high-quality planar p-type NiOx is challenging due to the anisotropic growth of nickel-based intermediate phase. Herein, NH4Cl additive is introduced to modulate the intermediate phase by adjusting the concentration of [Ni(H2O)(x)(NH3)(6-x)](2 ) cations. As a result, dense and uniform NiOx films are finally obtained after thermal annealing. Simultaneously, the energy level and hole conductivity of NiOx materials are carefully controlled by adjusting the annealing temperature. Benefited from the excellent electronic properties of CBD-NiOx hole-transport layer, the inverted PSCs based on MAPbI(3), (FA(0.98)MA(0.02))(0.95)Cs0.05Pb(I0.95Br0.05)(3) achieve the power conversion efficiency of 19.75% and 23.30%, respectively. Furthermore, the unencapsulated devices maintain over 90% of their initial efficiency after continuous operation for 700 h. Scaling up this novel intermediate phase regulation CBD method yields a mini-module with an active area of 14 cm(2), achieving an efficiency of 19.36%.

卷号：8

期号：20

是否译文：否