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Tin(IV) Oxide Electron Transport Layer via Industrial-Scale Pulsed Laser Deposition for Planar Perovskite Solar Cells

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Tin(IV) Oxide Electron Transport Layer via Industrial-Scale Pulsed Laser Deposition for Planar Perovskite Solar Cells

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dc.contributor.author Zanoni, Kassio P. S.
dc.contributor.author Pérez-del-Rey, Daniel
dc.contributor.author Dreessen, Chris
dc.contributor.author Rodkey, Nathan
dc.contributor.author Sessolo, Michele
dc.contributor.author Soltanpoor, Wiria
dc.contributor.author Morales-Masis, Monica
dc.contributor.author Bolink, Henk
dc.date.accessioned 2023-09-12T14:03:36Z
dc.date.available 2023-09-12T14:03:36Z
dc.date.issued 2023
dc.identifier.citation Zanoni, Kassio P. S. Pérez-del-Rey, Daniel Dreessen, Chris Rodkey, Nathan Sessolo, Michele Soltanpoor, Wiria Morales-Masis, Monica Bolink, Henk 2023 Tin(IV) Oxide Electron Transport Layer via Industrial-Scale Pulsed Laser Deposition for Planar Perovskite Solar Cells Acs Applied Materials & Interfaces 15 27 32621 32628
dc.identifier.uri https://hdl.handle.net/10550/89218
dc.description.abstract Electron transport layers (ETL) based on tin(IV) oxide (SnO2) are recurrently employed in perovskite solar cells (PSCs) by many deposition techniques. Pulsed laser deposition (PLD) offers a few advantages for the fabrication of such layers, such as being compatible with large scale, patternable, and allowing deposition at fast rates. However, a precise understanding of how the deposition parameters can affect the SnO2 film, and as a consequence the solar cell performance, is needed. Herein, we use a PLD tool equipped with a droplet trap to minimize the number of excess particles (originated from debris) reaching the substrate, and we show how to control the PLD chamber pressure to obtain surfaces with very low roughness and how the concentration of oxygen in the background gas can affect the number of oxygen vacancies in the film. Using optimized deposition conditions, we obtained solar cells in the n¿i¿p configuration employing methylammonium lead iodide perovskite as the absorber layer with power conversion efficiencies exceeding 18% and identical performance to devices having the more typical atomic layer deposited SnO2 ETL.
dc.language.iso eng
dc.relation.ispartof Acs Applied Materials & Interfaces, 2023, vol. 15, num. 27, p. 32621-32628
dc.subject Química
dc.title Tin(IV) Oxide Electron Transport Layer via Industrial-Scale Pulsed Laser Deposition for Planar Perovskite Solar Cells
dc.type journal article
dc.date.updated 2023-09-12T14:03:36Z
dc.identifier.doi 10.1021/acsami.3c04387
dc.identifier.idgrec 160982
dc.rights.accessRights open access

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