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Published TCIMAIL newest issue No.197 | Notice of Discontinuing the Use of Password-Protected Compressed Files | Product Document Searching Made Easy by 2D Code! | TCI Life Science News December 2024 | [Product Highlights] Ready-to-Use Cationic Polymer ... | Various analytical charts can be searched on each product detail page and Product Document Search (The kinds of analytical charts differ by product)

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Products > TCI Topics Archives > TCI Topics 2022 >

Self-Assembled Monolayer (SAM) Forming Agents Making Tin-Based Perovskite Solar Cells Efficient

It has been already reported that SAM forming agents such as 2PACz and MeO-2PACz increase efficiency of perovskite solar cells (PSC) in case of lead-based perovskite light absorption layer.¹⁾ Advantages of using these carbazole-based SAM forming agents are: molecular designability, excellent mechanical flexibility, no need of dopants, negligible loss of light transmittance, large-area scalability, and almost conformal and loss-less electrical contacts. These SAM served as a hole-selective interlayer for lead-based PSCs to attain a power conversion efficiency (PCE) of more than 20%.²⁾ PSC-silicon tandem solar cell with the SAM interlayer showed a PCE of more than 29%.³⁾
Recently, Diau et al. have reported tin-based perovskite solar cells by using SAM forming agents like 2PACz and MeO-2PACz (Device structure: ITO/SAM/FASnI₃/C₆₀/BCP/Ag).⁴⁾ An optimal device with MeO-2PACz resulted in 6.5% of PCE. Their stability test of the device showed that 80% of the initial PCE was maintained in a glovebox for 1900 hours. This work can propose a new direction for the development of SAM-based lead-free perovskite solar cells for their future scaled-up production.

Related Products

M3359: Me-4PACz
T3449: Tin(II) Iodide [for Perovskite precursor]
F0974: Formamidine Hydroiodide (Low water content)
F1263: Formamidine Hydroiodide (99.99%, trace metals basis) [for Perovskite precursor]
F1232: Fullerene C₆₀ (purified by sublimation) [for organic electronics]

References

1) Self-Assembled Monolayers as Interface Engineering Nanomaterials in Perovskite Solar Cells
- S. Y. Kim, S. J. Cho, S. E. Byeon, X. He, H. J. Yoon, Adv. Energy Mater. 2020, 10, 2002606.
2) Conformal monolayer contacts with lossless interfaces for perovskite single junction and monolithic tandem solar cells
- A. Al-Ashouri, A. Magomedov, M. Roß, M. Jošt, M. Talaikis, G. Chistiakova, T. Bertram, J. A. Márquez, E. Köhnen, E. Kasparavičius, S. Levcenco, L. Gil-Escrig, C. J. Hages, R. Schlatmann, B. Rech, T. Malinauskas, T. Unold, C. A. Kaufmann, L. Korte, G. Niaura, V. Getautis, S. Albrecht, Energy Environ. Sci. 2019, 12, 3356.
3) Monolithic perovskite/silicon tandem solar cell with >29% efficiency by enhanced hole extraction
- A. Al-Ashouri, E. Kohnen, B. Li, A. Magomedov, H. Hempel, P. Caprioglio, J. A. Marquez, A. B. Morales Vilches, E. Kasparavicius, J. A. Smith, N. Phung, D. Menzel, M. Grischek, L. Kegelmann, D. Skroblin, C. Gollwitzer, T. Malinauskas, M. Jost, G. Matic, B. Rech, R. Schlatmann, M. Topic, L. Korte, A. Abate, B. Stannowski, D. Neher, M. Stolterfoht, T. Unold, V. Getautis, S. Albrecht, Science 2020, 370, 1300.
4) Interfacial Engineering with a Hole-Selective Self-Assembled Monolayer for Tin Perovskite Solar Cells via a Two-Step Fabrication
- D. Song, S. Narra, M.-Y. Li, J.-S. Lin, E. W.-G. Diau, ACS Energy Lett. 2021, 6, 4179.