Fully printed flexible perovskite solar modules with improved energy alignment by tin oxide surface modification

Dong L, Qiu S, García Cerrillo J, Wagner M, Kasian O, Feroze S, Jang D, Li C, Le Corre VM, Zhang K, Peisert H, U. Kosasih F, Ducati C, Arrive C, Du T, Yang F, Brabec C, Egelhaaf HJ (2024)


Publication Type: Journal article

Publication year: 2024

Journal

DOI: 10.1039/d4ee01647e

Abstract

Fully printed flexible perovskite solar cells (f-PSCs) show great potential for the commercialization of perovskite photovoltaics owing to their compatibility with high-throughput roll-to-roll (R2R) production. However, the challenge remains in the deficiency in controlling interfacial recombination losses of the functional layer, causing remarkable loss of power conversion efficiency (PCE) in industrial production. Here, a fullerene-substituted alkylphosphonic acid dipole layer is introduced between the R2R-printed tin oxide electron transport layer and the perovskite active layer to reduce the energetic barrier and to suppress surface recombination at the buried interface. The resulting f-PSCs exhibit a PCE of 17.0% with negligible hysteresis, retain 95% of their initial PCE over 3000 bending cycles and achieve a T95 lifetime of 1200 h under 1 sun and 65 °C in nitrogen atmosphere. Moreover, the fully printed flexible perovskite solar mini-modules (f-PSMs) with a 20.25 cm2 aperture area achieve a PCE of 11.6%. The encapsulated f-PSMs retain 90% of their initial PCE after 500 h damp-heat testing at 65 °C and 85% relative humidity (ISOS-D3). This work marks an important progress toward the realization of efficient and stable flexible perovskite photovoltaics for commercialization.

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APA:

Dong, L., Qiu, S., García Cerrillo, J., Wagner, M., Kasian, O., Feroze, S.,... Egelhaaf, H.-J. (2024). Fully printed flexible perovskite solar modules with improved energy alignment by tin oxide surface modification. Energy and Environmental Science. https://doi.org/10.1039/d4ee01647e

MLA:

Dong, Lirong, et al. "Fully printed flexible perovskite solar modules with improved energy alignment by tin oxide surface modification." Energy and Environmental Science (2024).

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