Affiliation:
1. School of Physical Science and Technology ShanghaiTech University Shanghai 201210 China
2. Shanghai Advanced Research Institute Chinese Academy of Sciences Shanghai 201204 China
3. Laboratory “Photonics of Crystals” Saint‐Petersburg University Saint‐Petersburg 198504 Russia
4. Department of Materials Science and Technology University of Crete Voutes Heraklion GR‐70013 Greece
Abstract
AbstractPhase segregation can bring low crystallinity and orientation, giving rise to poor carrier transport and high defect density, leading to poor device performance. In order to reduce oxidation and defect density and regulate film growth, lots of reductive additives such as SnF2 are explored as additives in tin perovskite film growth. Despite the oxidation is effectively reduced, it induces phase segregation. Herein, a reductive molecule NH5F2 with a bi‐fluoride anion is explored to address this challenge for tin perovskite solar cells. This bi‐fluoride anion reduces coordination energy with Sn2+ compared to SnF2, hence the byproduct of [F─H─F]− can be eliminated during the film annealing process, effectively preventing fluoride segregation. As a result, a highly oriented perovskite film with reduced oxidation is fabricated. The film shows reduced defect density and carrier recombination, leading to improved current density. Consequently, a tin‐based perovskite solar cell with an efficiency of 15.04% is fabricated, ranking as one of the highest efficiencies reported up to now.
Funder
National Natural Science Foundation of China
National Key Research and Development Program of China
Science and Technology Commission of Shanghai Municipality
China Postdoctoral Science Foundation
Ministry of Science and Higher Education of the Russian Federation