Perovskite solar cells are among the most promising photovoltaic technologies in academia and have the potential to become commercially available in the near future. However, there are still a few unresolved issues regarding device lifetime and fabrication cost of perovskite solar cells in order to be competitive with existing technologies. Herein, we report small organic molecules with introduced vinyl groups as hole transporting materials, which are capable of undergoing thermal polymerization, forming solvent-resistant 3D networks. Novel compounds have been synthesized from relatively inexpensive starting materials and their purification is less time-consuming when compared to polymers; therefore this type of hole transporter can be a promising alternative to lower the manufacturing cost of perovskite solar cells.
CITATION STYLE
Vaitukaityte, D., Magomedov, A., Rakstys, K., Kwiatkowski, S., Kamarauskas, E., Jankauskas, V., … Getautis, V. (2023). Thermally cross-linkable fluorene-based hole transporting materials: synthesis, characterization, and application in perovskite solar cells. RSC Advances, 13(38), 26933–26939. https://doi.org/10.1039/d3ra03492e
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