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Improved performance and thermal stability of perovskite solar cells prepared via a modified sequential deposition process

: Kim, S.; Chung, T.; Bae, S.; Lee, S.-W.; Lee, K.D.; Kim, H.; Lee, S.; Kang, Y.; Lee, H.-S.; Kim, D.


Organic Electronics 41 (2017), S.266-273
ISSN: 1566-1199
Fraunhofer ISE ()

In conventional sequential deposition, PbI2-free CH3NH3PbI3 perovskite films can be achieved when the PbI2 substrate reacts with a relatively low-concentration CH3NH3I solution (<8 mg of CH3NH3I per 1 mL of IPA) but the film that is formed has only sparse and uneven coverage. On the other hand, a dense CH3NH3PbI3 perovskite film can be formed on a mesoporous TiO2 substrate when the PbI2 substrate reacts with a relatively high-concentration MAI solution (>8 mg of CH3NH3I per 1 mL of IPA), but unreacted PbI2 is still present in CH3NH3PbI3 layer in such cases. Here, we developed organic-inorganic perovskite solar cells with high efficiency by preparing dense and PbI2-free films using a modified sequential deposition process. By utilizing the reaction behavior between PbI2 and MAI, solar cells with an average power-conversion efficiency of 15.1% and high reproducibility and stability were achieved.