期刊
SOLAR RRL
卷 6, 期 1, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/solr.202100842
关键词
atomic layer deposition; electron-transport layers; hybrid perovskite solar cells; low-temperature tin oxide; n.i.p perovskite solar cells; planar perovskite solar cells
资金
- National Research Foundation, Prime Minister's Office, Singapore under the Solar CRP [S18-1176-SCRP]
- National Research Foundation, Prime Minister's Office, Singapore [NRF2018-ITC001-001]
The study demonstrates the potential of low-temperature ALD deposition for efficient perovskite solar cells, with SnO2 thin films grown at low temperatures showing PCEs consistently above 18% and ALD ZnO approaching 18% PCE. The results suggest that low-temperature processed ALD ETL layers could be a promising approach for fabricating high-efficiency PSCs.
In this work, we explore the potentials and the characteristics of electron-transporting layers (ETL) grown by atomic layer deposition (ALD) at low temperature in co-evaporated perovskite solar cells (PSCs). The thermal-based ALD process has been investigated by tuning the main growing conditions as the number of cycles and the growth temperature. We show that un-annealed ALD-SnO2 thin films grown at temperatures between 80 degrees C and 100 degrees C are efficient ETL in n.i.p co-evaporated MAPbI(3) PSCs which can achieve power conversion efficiencies (PCEs) consistently above 18%. Moreover, the champion PSC achieved a PCE of 19.30% at 120 degrees C with 150 cycles. We show that the low-temperature processed ALD SnO2 is very promising for flexible, large-area PSCs and mini-modules. We also report the first co-evaporated PSCs employing low temperature processed ALD ZnO with PCEs approaching 18%. This work demonstrates the potential of the low-temperature ALD deposition method as a potential route to fabricate efficient PSCs at low temperatures.
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