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Iodine chemistry determines the defect tolerance of lead-halide perovskites

Iodine chemistry determines the defect tolerance of lead-halide perovskites
Iodine chemistry determines the defect tolerance of lead-halide perovskites

Metal-halide perovskites are outstanding materials for photovoltaics. Their long carrier lifetimes and diffusion lengths favor efficient charge collection, leading to efficiencies competing with established photovoltaics. These observations suggest an apparently low density of traps in the prototype methylammonium lead iodide (MAPbI3) contrary to the expected high defect density of a low-temperature, solution-processed material. Combining first-principles calculations and spectroscopic measurements we identify less abundant iodine defects as the source of photochemically active deep electron and hole traps in MAPbI3. The peculiar iodine redox chemistry leads, however, to kinetic deactivation of filled electron traps, leaving only short-living hole traps as potentially harmful defects. Under mild oxidizing conditions the amphoteric hole traps can be converted into kinetically inactive electron traps, providing a rationale for the defect tolerance of metal-halide perovskites. Bromine and chlorine doping of MAPbI3 also inactivate hole traps, possibly explaining the superior optoelectronic properties of mixed-halide perovskites.

1754-5692
702-713
Meggiolaro, Daniele
ea3393d8-94ab-4ed6-8bc7-b96a1e47e2d5
Motti, Silvia G.
17e505d8-5c5f-43e9-a5d3-370a0593e8f4
Mosconi, Edoardo
b7d52751-79e0-4061-b481-b758802fe6b6
Barker, Alex J.
dfdf5db9-9067-437f-8da9-d58fbedbb84f
Ball, James
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Andrea Riccardo Perini, Carlo
30366163-90cf-4ad5-a8f6-ae1b0d2879c4
Deschler, Felix
63b322d5-2b30-4b2c-be11-438da6d75314
Petrozza, Annamaria
3b0b0eb2-0084-4ee2-a320-930e9284b736
De Angelis, Filippo
5f772d11-2ea7-4814-8c68-496495957dbb
Meggiolaro, Daniele
ea3393d8-94ab-4ed6-8bc7-b96a1e47e2d5
Motti, Silvia G.
17e505d8-5c5f-43e9-a5d3-370a0593e8f4
Mosconi, Edoardo
b7d52751-79e0-4061-b481-b758802fe6b6
Barker, Alex J.
dfdf5db9-9067-437f-8da9-d58fbedbb84f
Ball, James
9ec2fada-5100-4b00-a8a2-6ba9b6640b70
Andrea Riccardo Perini, Carlo
30366163-90cf-4ad5-a8f6-ae1b0d2879c4
Deschler, Felix
63b322d5-2b30-4b2c-be11-438da6d75314
Petrozza, Annamaria
3b0b0eb2-0084-4ee2-a320-930e9284b736
De Angelis, Filippo
5f772d11-2ea7-4814-8c68-496495957dbb

Meggiolaro, Daniele, Motti, Silvia G., Mosconi, Edoardo, Barker, Alex J., Ball, James, Andrea Riccardo Perini, Carlo, Deschler, Felix, Petrozza, Annamaria and De Angelis, Filippo (2018) Iodine chemistry determines the defect tolerance of lead-halide perovskites. Energy and Environmental Science, 11 (3), 702-713. (doi:10.1039/c8ee00124c).

Record type: Article

Abstract

Metal-halide perovskites are outstanding materials for photovoltaics. Their long carrier lifetimes and diffusion lengths favor efficient charge collection, leading to efficiencies competing with established photovoltaics. These observations suggest an apparently low density of traps in the prototype methylammonium lead iodide (MAPbI3) contrary to the expected high defect density of a low-temperature, solution-processed material. Combining first-principles calculations and spectroscopic measurements we identify less abundant iodine defects as the source of photochemically active deep electron and hole traps in MAPbI3. The peculiar iodine redox chemistry leads, however, to kinetic deactivation of filled electron traps, leaving only short-living hole traps as potentially harmful defects. Under mild oxidizing conditions the amphoteric hole traps can be converted into kinetically inactive electron traps, providing a rationale for the defect tolerance of metal-halide perovskites. Bromine and chlorine doping of MAPbI3 also inactivate hole traps, possibly explaining the superior optoelectronic properties of mixed-halide perovskites.

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More information

Accepted/In Press date: 6 February 2018
e-pub ahead of print date: 9 February 2018

Identifiers

Local EPrints ID: 490275
URI: http://eprints.soton.ac.uk/id/eprint/490275
DOI: doi:10.1039/c8ee00124c
ISSN: 1754-5692
PURE UUID: 6d56bde2-556a-41d5-96ae-bb819d94c329
ORCID for Silvia G. Motti: ORCID iD orcid.org/0000-0002-8088-3485

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Date deposited: 22 May 2024 17:12
Last modified: 23 May 2024 02:04

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Contributors

Author: Daniele Meggiolaro
Author: Silvia G. Motti ORCID iD
Author: Edoardo Mosconi
Author: Alex J. Barker
Author: James Ball
Author: Carlo Andrea Riccardo Perini
Author: Felix Deschler
Author: Annamaria Petrozza
Author: Filippo De Angelis

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