Measurement and modelling of dark current decay transients in perovskite solar cells
Measurement and modelling of dark current decay transients in perovskite solar cells
The current decay in response to a sudden change of applied bias up to 1 V has been measured on a methylammonium lead triiodide perovskite solar cell with titania and spiro-OMeTAD transport layers, for temperatures between 258 and 308 K. These measurements are highly reproducible, in contrast to most other techniques used to investigate perovskite cells. A drift-diffusion model that accounts for slow moving ions as well as electrons and holes acting as charge carriers was used to predict the current transients. The close fit of the model predictions to the measurements shows that mobile ions in the perovskite layer influence transient behaviour on timescales of up to 50 s. An activation energy of 0.55 eV is inferred from fitting simulations to measurements made at room temperature.
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O'Kane, Simon
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Richardson, Giles
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Pockett, Adam
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Niemann, Ralf
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Cave, James
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Sakai, Nobuya
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Eperon, Giles
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Snaith, Henry
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Foster, Jamie
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Cameron, Petra
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Walker, Alison
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January 2017
O'Kane, Simon
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Richardson, Giles
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Pockett, Adam
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Niemann, Ralf
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Cave, James
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Sakai, Nobuya
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Eperon, Giles
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Snaith, Henry
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Foster, Jamie
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Cameron, Petra
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Walker, Alison
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O'Kane, Simon, Richardson, Giles, Pockett, Adam, Niemann, Ralf, Cave, James, Sakai, Nobuya, Eperon, Giles, Snaith, Henry, Foster, Jamie, Cameron, Petra and Walker, Alison
(2017)
Measurement and modelling of dark current decay transients in perovskite solar cells.
Journal of Materials Chemistry C, 5 (452-462), .
(doi:10.1039/C6TC04964H).
Abstract
The current decay in response to a sudden change of applied bias up to 1 V has been measured on a methylammonium lead triiodide perovskite solar cell with titania and spiro-OMeTAD transport layers, for temperatures between 258 and 308 K. These measurements are highly reproducible, in contrast to most other techniques used to investigate perovskite cells. A drift-diffusion model that accounts for slow moving ions as well as electrons and holes acting as charge carriers was used to predict the current transients. The close fit of the model predictions to the measurements shows that mobile ions in the perovskite layer influence transient behaviour on timescales of up to 50 s. An activation energy of 0.55 eV is inferred from fitting simulations to measurements made at room temperature.
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c6tc04964h
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uncopyright_OKane_Transients.pdf
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More information
Accepted/In Press date: 15 December 2016
e-pub ahead of print date: 15 December 2016
Published date: January 2017
Organisations:
Applied Mathematics
Identifiers
Local EPrints ID: 403879
URI: http://eprints.soton.ac.uk/id/eprint/403879
ISSN: 2050-7526
PURE UUID: 23d3be7a-a8a5-46aa-9b52-b8ef82b9002c
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Date deposited: 15 Dec 2016 11:44
Last modified: 16 Mar 2024 04:00
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Contributors
Author:
Simon O'Kane
Author:
Adam Pockett
Author:
Ralf Niemann
Author:
James Cave
Author:
Nobuya Sakai
Author:
Giles Eperon
Author:
Henry Snaith
Author:
Jamie Foster
Author:
Petra Cameron
Author:
Alison Walker
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