Abstract
Hole transporting layer-free all-inorganic CsPbI2Br carbon-based perovskite solar cells (C-PSCs) show promising prospect for photovoltaic application due to its low cost and excellent stability. However, the low power conversion efficiency (PCE) hampers its development, mainly due to the existence of defects inside the CsPbI2Br film or at electron transporting layer (ETL)/CsPbI2Br interface. Herein, a non-hydrophilic Cl-containing SnO2 (SnO2-Cl) ETL through a facile SnCl4·5H2O hydrolysis process is developed, which can provide fewer nucleation sites and larger nucleus spacing for the growth of high-quality CsPbI2Br film as well as reduced ETL/CsPbI2Br interfacial defects. Then, PbCl2 additive is introduced into CsPbI2Br precursor to participate in the formation of CsI-Pb[I/Br/Cl]2-DMSO intermediate phase, which can induce more rapid and even nucleation as well as slow crystal growth before and during annealing process, bringing about the further increased crystal size and reduced defect density of CsPbI2Br film. Based on this systematic optimization via chlorine modulation, both interfacial and bulk defects are effectively suppressed, the assembled CsPbI2Br C-PSC achieves a champion PCE of 14.11%, which is one of the highest reported values to date.
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