Preferred Growth Direction by PbS Nanoplatelets Preserves Perovskite Infrared Light Harvesting for Stable, Reproducible, and Efficient Solar Cells

Preferred Growth Direction by PbS Nanoplatelets Preserves Perovskite Infrared Light Harvesting for Stable, Reproducible, and Efficient Solar Cells

Formamidinium‐based perovskite solar cells (PSCs) present the maximum theoretical efficiency of the lead perovskite family. However, formamidinium perovskite exhibits significant degradation in air. The surface chemistry of PbS has been used to improve the formamidinium black phase stability. Here,...

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Bibliographic Details
Published in:Advanced energy materials Vol. 10; no. 46
Main Authors: Sánchez‐Godoy, Humberto Emmanuel, Erazo, Eider Ansisar, Gualdrón‐Reyes, Andrés Fabián, Khan, Ali Hossain, Agouram, Said, Barea, Eva Maria, Rodriguez, Rubén Arturo, Zarazúa, Isaac, Ortiz, Pablo, Cortés, María Teresa, Muñoz‐Sanjosé, Vicente, Moreels, Iwan, Masi, Sofia, Mora‐Seró, Iván
Format: Journal Article
Language:English
Published: Weinheim Wiley Subscription Services, Inc 01-12-2020
Subjects:
Control stability
Crystal growth
Crystal structure
Current efficiency
formamidinium
Grains
Infrared radiation
PbS nanoplatelets
perovskite stability
Perovskites
Phase stability
Photovoltaic cells
Reproducibility
Solar cells
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Summary:Formamidinium‐based perovskite solar cells (PSCs) present the maximum theoretical efficiency of the lead perovskite family. However, formamidinium perovskite exhibits significant degradation in air. The surface chemistry of PbS has been used to improve the formamidinium black phase stability. Here, the use of PbS nanoplatelets with (100) preferential crystal orientation is reported, to potentiate the repercussion on the crystal growth of perovskite grains and to improve the stability of the material and consequently of the solar cells. As a result, a vertical growth of perovskite grains, a stable current density of 23 mA cm−2, and a stable incident photon to current efficiency in the infrared region of the spectrum for 4 months is obtained, one of the best stability achievements for planar PSCs. Moreover, a better reproducibility than the control device, by optimizing the PbS concentration in the perovskite matrix, is achieved. These outcomes validate the synergistic use of PbS nanoplatelets to improve formamidinium long‐term stability and performance reproducibility, and pave the way for using metastable perovskite active phases preserving their light harvesting capability. PbS nanoplatelets (NPLs) used as an external additive with (100) preferential crystal orientation improve a formamidinium‐based perovskite material and solar cell stability. A stable current density of 23 mA cm−2 for 4 months is recorded along with an improved reproducibility, demonstrating the potential of the interaction between the (100) facets of the NPLs and the perovskite α‐phase.
ISSN:1614-6832
1614-6840
DOI:10.1002/aenm.202002422