Kristofer Tvingstedt, Tonio Buonassisi, Juan-Pablo Correa-Baena, Alessio Filippetti, Heidi A. Schwartz, Selina Olthof, Simone Meloni, Zishuai Wang, Firouzeh Ebadi, Terry Chien-Jen Yang, Shijing Sun, Wolfgang Tress, Wallace C. H. Choy, Thomas Dittrich, Bjoern Niesen, Javier Durantini, Philipp Rieder, Zaiwei Wang, and Mozhgan Yavari
One of the key properties of lead-halide perovskites employed in solar cells is the defect tolerance of the materials, in particular regarding intrinsic point defects, which mainly form shallow traps. Considering that high luminescence yields and photovoltaic performance are obtained by simple solution processing from commercial chemicals, it is commonly anticipated that the defect tolerance-at least to a considerable degree-extends to grain boundaries and extrinsic defects, i.e. impurities, as well. However, the effect of impurities has hardly been investigated. Here, we intentionally introduce small quantities of bismuth (10 ppm to 2%) in solution to be incorporated in the perovskite films based on mixed cation mixed anion compositions. We observe that Bi impurities in the %-regime reduce charge carrier collection efficiency and, more importantly, that the open-circuit voltage decreases systematically with impurity concentration even in the ppm regime. This strong defect intolerance against Bi impurities comes along with reduced electroluminescence yields and charge carrier lifetimes obtained from transient photoluminescence experiments. Calculations based on molecular dynamics and density functional theory predict delocalized (≈0.16 eV) and localized deep (≈0.51 eV) trap states dependent on the structural arrangement of the surrounding atoms. Structural characterization supports the idea of Bi being present as a homogeneously spread point defect, which substitutes the Pb2+ by Bi3+ as seen from XPS and a reduction of the lattice parameter in XRD. Sensitive measurements of the photocurrent (by FTPS) and surface photovoltage (SPV) confirm the presence of tail states. Photoelectron spectroscopy measurements show evidence of a deep state. These results are consistent with the common idea of shallow traps being responsible for the reduced charge collection efficiency and the decreased fill factor, and deeper traps causing a substantial reduction of the open-circuit voltage. As Bi is only one potential impurity in the precursor salts used in perovskite solar cell fabrication, our findings open-up a research direction focusing on identifying and eliminating impurities that act as recombination centers-a topic that has so far not been fully considered in device optimization studies. Fil: Yavari, M.. École Polytechnique Fédérale de Lausanne; Suiza Fil: Ebadi, Firouzeh. École Polytechnique Fédérale de Lausanne; Suiza Fil: Meloni, Simone. Università di Roma; Italia Fil: Wang, Zishuai. École Polytechnique Fédérale de Lausanne; Suiza Fil: Yang, Terry Chien-Jen. École Polytechnique Fédérale de Lausanne; Suiza Fil: Sun, Shijing. Massachusetts Institute Of Technology; Estados Unidos Fil: Schwartz, Heidi. University Of Cologne; Alemania Fil: Wang, Zaiwei. École Polytechnique Fédérale de Lausanne; Suiza Fil: Niesen, Bjoern. École Polytechnique Fédérale de Lausanne; Suiza Fil: Durantini, Javier Esteban. Universidad Nacional de Río Cuarto. Facultad de Ciencias Exactas Fisicoquímicas y Naturales. Instituto de Investigaciones en Tecnologías Energéticas y Materiales Avanzados. - Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Córdoba. Instituto de Investigaciones en Tecnologías Energéticas y Materiales Avanzados; Argentina Fil: Rieder, Philipp. Julius Maximilian University Of Würzburg; Alemania Fil: Tvingstedt, Kristofer. Julius Maximilian University Of Würzburg; Alemania Fil: Buonassisi, Tonio. Massachusetts Institute Of Technology; Estados Unidos Fil: Choy, Wallace C.H.. The University Of Hong Kong; Hong Kong Fil: Filippetti, Alessio. Università Di Cagliari; Italia Fil: Dittrich, Thomas. Helmholtz Center Berlin For Materials And Energy; Alemania Fil: Olthof, Selina. University Of Cologne; Alemania Fil: Correa Baena, Juan Pablo. Massachusetts Institute Of Technology; Estados Unidos Fil: Tress, Wolfgang. École Polytechnique Fédérale de Lausanne; Suiza