Efficient ambient-air-stable solar cells with 2D–3D heterostructured butylammonium-caesium-formamidinium lead halide perovskites
Efficient ambient-air-stable solar cells with 2D–3D heterostructured butylammonium-caesium-formamidinium lead halide perovskites
Perovskite solar cells are remarkably efficient; however, they are prone to degradation in water, oxygen and ultraviolet light. Cation engineering in 3D perovskite absorbers has led to reduced degradation. Alternatively, 2D Ruddlesden–Popper layered perovskites exhibit improved stability, but have not delivered efficient solar cells so far. Here, we introduce n-butylammonium cations into a mixed-cation lead mixed-halide FA0.83Cs0.17Pb(IyBr1−y)3 3D perovskite. We observe the formation of 2D perovskite platelets, interspersed between highly orientated 3D perovskite grains, which suppress non-radiative charge recombination. We investigate the relationship between thin-film composition, crystal alignment and device performance. Solar cells with an optimal butylammonium content exhibit average stabilized power conversion efficiency of 17.5 ± 1.3% with a 1.61-eV-bandgap perovskite and 15.8 ± 0.8% with a 1.72-eV-bandgap perovskite. The stability under simulated sunlight is also enhanced. Cells sustain 80% of their ‘post burn-in’ efficiency after 1,000 h in air, and close to 4,000 h when encapsulated.
Wang, Zhiping
19a9cd1c-f042-44aa-bb82-4334e4fa9a76
Lin, Qianqian
6930034e-80df-42a7-be7c-73d20af5831e
Chmiel, Francis P.
2de259aa-a5eb-460c-bfbf-8b44ed02e2bd
Sakai, Nobuya
a3d41a74-11d5-4692-917d-cbc521dccc26
Herz, Laura M.
61d69096-5062-489f-b608-685166bc48f5
Snaith, Henry J.
12799605-fd5f-4333-8c8c-270e2d291015
14 August 2017
Wang, Zhiping
19a9cd1c-f042-44aa-bb82-4334e4fa9a76
Lin, Qianqian
6930034e-80df-42a7-be7c-73d20af5831e
Chmiel, Francis P.
2de259aa-a5eb-460c-bfbf-8b44ed02e2bd
Sakai, Nobuya
a3d41a74-11d5-4692-917d-cbc521dccc26
Herz, Laura M.
61d69096-5062-489f-b608-685166bc48f5
Snaith, Henry J.
12799605-fd5f-4333-8c8c-270e2d291015
Wang, Zhiping, Lin, Qianqian, Chmiel, Francis P., Sakai, Nobuya, Herz, Laura M. and Snaith, Henry J.
(2017)
Efficient ambient-air-stable solar cells with 2D–3D heterostructured butylammonium-caesium-formamidinium lead halide perovskites.
Nature Energy, 2, [17135].
(doi:10.1038/nenergy.2017.135).
Abstract
Perovskite solar cells are remarkably efficient; however, they are prone to degradation in water, oxygen and ultraviolet light. Cation engineering in 3D perovskite absorbers has led to reduced degradation. Alternatively, 2D Ruddlesden–Popper layered perovskites exhibit improved stability, but have not delivered efficient solar cells so far. Here, we introduce n-butylammonium cations into a mixed-cation lead mixed-halide FA0.83Cs0.17Pb(IyBr1−y)3 3D perovskite. We observe the formation of 2D perovskite platelets, interspersed between highly orientated 3D perovskite grains, which suppress non-radiative charge recombination. We investigate the relationship between thin-film composition, crystal alignment and device performance. Solar cells with an optimal butylammonium content exhibit average stabilized power conversion efficiency of 17.5 ± 1.3% with a 1.61-eV-bandgap perovskite and 15.8 ± 0.8% with a 1.72-eV-bandgap perovskite. The stability under simulated sunlight is also enhanced. Cells sustain 80% of their ‘post burn-in’ efficiency after 1,000 h in air, and close to 4,000 h when encapsulated.
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Accepted/In Press date: 14 July 2017
Published date: 14 August 2017
Identifiers
Local EPrints ID: 431624
URI: http://eprints.soton.ac.uk/id/eprint/431624
ISSN: 2058-7546
PURE UUID: 965a4c64-d2a9-4f9b-86ff-fe593896bff6
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Date deposited: 11 Jun 2019 16:30
Last modified: 16 Mar 2024 02:12
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Contributors
Author:
Zhiping Wang
Author:
Qianqian Lin
Author:
Francis P. Chmiel
Author:
Nobuya Sakai
Author:
Laura M. Herz
Author:
Henry J. Snaith
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