Postpassivation of multication perovskite with rubidium butyrate
Postpassivation of multication perovskite with rubidium butyrate
Many multication perovskites for highly stable and efficient solar cells benefit from rubidium iodide introduced in the precursor solution. It is well-known that Rb+ influences positively the optoelectronic and mobility properties and has a direct effect upon crystallization and halide homogenization. As Rb+ is often incorporated by adding RbI in the precursor solution, it can be difficult to distinguish the influence of Rb+ and I– separately. Herein, we report a postpassivation of methylammonium-free (CsFA) perovskite films with rubidium butyrate (RbBu). The passivation with RbBu increases the hydrophobicity of the perovskite surface and passivates shallow and deep traps, leading to an increase of charge-carrier lifetimes and diffusion lengths. Consequently, a better photovoltaic performance is also observed. These superior properties are attributed to both surface (halide-vacancy) and grain-boundary passivation by the carboxylate group and Rb+, respectively. We found that Rb+ itself acts as a direct and powerful passivating agent for multication perovskites, and this is proven by decoupling its contribution and halide’s contribution to other important performance parameters (e.g., crystallization, halide vacancies filling, etc.).
diffusion lengths, perovskite defects, Perovskite solar cells, rubidium, surface-trap passivation, THz pump-probe
2282-2291
Germino, José Carlos
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Szostak, Rodrigo
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Motti, Silvia G.
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Moral, Raphael F.
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Marchezi, Paulo E.
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Seleghini, Heitor S.
6b2acbe5-1d92-48ee-912a-ea7e409ea7c2
Bonato, Luiz G.
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De Araújo, Francineide Lopes
fdbfe7b9-e62e-41bd-8342-3ca2a450b732
Atvars, Teresa D.Z.
7a9126af-6a2f-481d-bfa8-7bf0cb249f2a
Herz, Laura M.
6e52cb27-d21f-4b17-87f3-db83a6cb48ad
Fenning, David
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Hagfeldt, Anders
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Nogueira, Ana Flávia
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19 August 2020
Germino, José Carlos
7465be24-1024-446c-a7da-b34f9a39e462
Szostak, Rodrigo
e9ac486d-026e-4de9-944d-70bb99479425
Motti, Silvia G.
17e505d8-5c5f-43e9-a5d3-370a0593e8f4
Moral, Raphael F.
a27480d8-566c-4c80-bfbd-84fbfea8adf2
Marchezi, Paulo E.
49d758e7-622b-473d-bac0-bb07d9603d3a
Seleghini, Heitor S.
6b2acbe5-1d92-48ee-912a-ea7e409ea7c2
Bonato, Luiz G.
039f04a2-0453-42fa-b174-f2cfb645aacf
De Araújo, Francineide Lopes
fdbfe7b9-e62e-41bd-8342-3ca2a450b732
Atvars, Teresa D.Z.
7a9126af-6a2f-481d-bfa8-7bf0cb249f2a
Herz, Laura M.
6e52cb27-d21f-4b17-87f3-db83a6cb48ad
Fenning, David
cef8fc01-ea2b-4a83-8643-4389c94b057f
Hagfeldt, Anders
51e174f3-24c8-4386-95a2-fdc0eb7fa0d2
Nogueira, Ana Flávia
c6cf4bea-9fb9-4d5c-b7f2-1aefbd7616e5
Germino, José Carlos, Szostak, Rodrigo, Motti, Silvia G., Moral, Raphael F., Marchezi, Paulo E., Seleghini, Heitor S., Bonato, Luiz G., De Araújo, Francineide Lopes, Atvars, Teresa D.Z., Herz, Laura M., Fenning, David, Hagfeldt, Anders and Nogueira, Ana Flávia
(2020)
Postpassivation of multication perovskite with rubidium butyrate.
ACS Photonics, 7 (8), .
(doi:10.1021/acsphotonics.0c00878).
Abstract
Many multication perovskites for highly stable and efficient solar cells benefit from rubidium iodide introduced in the precursor solution. It is well-known that Rb+ influences positively the optoelectronic and mobility properties and has a direct effect upon crystallization and halide homogenization. As Rb+ is often incorporated by adding RbI in the precursor solution, it can be difficult to distinguish the influence of Rb+ and I– separately. Herein, we report a postpassivation of methylammonium-free (CsFA) perovskite films with rubidium butyrate (RbBu). The passivation with RbBu increases the hydrophobicity of the perovskite surface and passivates shallow and deep traps, leading to an increase of charge-carrier lifetimes and diffusion lengths. Consequently, a better photovoltaic performance is also observed. These superior properties are attributed to both surface (halide-vacancy) and grain-boundary passivation by the carboxylate group and Rb+, respectively. We found that Rb+ itself acts as a direct and powerful passivating agent for multication perovskites, and this is proven by decoupling its contribution and halide’s contribution to other important performance parameters (e.g., crystallization, halide vacancies filling, etc.).
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e-pub ahead of print date: 14 July 2020
Published date: 19 August 2020
Keywords:
diffusion lengths, perovskite defects, Perovskite solar cells, rubidium, surface-trap passivation, THz pump-probe
Identifiers
Local EPrints ID: 490329
URI: http://eprints.soton.ac.uk/id/eprint/490329
ISSN: 2330-4022
PURE UUID: 01060b10-8a46-4621-af96-c83067da02ea
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Date deposited: 23 May 2024 16:55
Last modified: 24 May 2024 02:05
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Contributors
Author:
José Carlos Germino
Author:
Rodrigo Szostak
Author:
Silvia G. Motti
Author:
Raphael F. Moral
Author:
Paulo E. Marchezi
Author:
Heitor S. Seleghini
Author:
Luiz G. Bonato
Author:
Francineide Lopes De Araújo
Author:
Teresa D.Z. Atvars
Author:
Laura M. Herz
Author:
David Fenning
Author:
Anders Hagfeldt
Author:
Ana Flávia Nogueira
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