Presentation Information

[24p-22C-5]Inverted perovskite solar cells with solution processed multilayered electron transporting layers by meniscus and transfer printing

〇Eiji Itoh1, Tatsuya Koike1 (1.Shinshu Univ.)

Keywords:

Inverted perovskite solar cell,meniscus coat,transfer printing

We demonstrated the low-cost, eco-friendly fabrication techniques for inverted perovskite solar cells (iPSCs) with multilayered electron transporting layers using fullerene derivative (PCBM) and ZnO nanoparticles (NPs) by combining the meniscus-coating and transfer-printing techniques. We fabricated the multilayered planar iPSCs by low-temperature printing process not higher than 120 oC. Using improved meniscus coating method by reciprocating the glass rod back and forth repeatedly, the material usage of PCBM and toxic chlorobenzene for iPSCs to 1/15~1/20 compared with the conventional spin-coating method, and 1/10 for ZnO NPs without extending the tact time. The material utilization rate became about 50 and 100 % for meniscus- and push-coating, and a pin-hole-free uniform film was obtained for meniscus coating. We also reduced the initial degradation of perovskite layer during the deposition of ZnO onto the perovskite layer and improved the photovoltaic properties by the transfer-printing of ZnO from “wet-PDMS” stamp onto the thin PCBM film coated perovskite layers.