Modelling and loss analysis of meso-structured perovskite solar cells
A mathematical model for meso-structured perovskite solar cells is derived and calibrated towards measured intensity dependent current-voltage characteristics. This steady-state device model describes the transport of free carriers, carrier recombination and optical generation. The optical part cons...
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sg-ntu-dr.10356-866942021-01-10T11:15:48Z Modelling and loss analysis of meso-structured perovskite solar cells Xue, Hansong Fu, Kunwu Wong, Lydia Helena Birgersson, Erik Stangl, Rolf School of Materials Science & Engineering Energy Research Institute @ NTU (ERI@N) Materials Solar Cells A mathematical model for meso-structured perovskite solar cells is derived and calibrated towards measured intensity dependent current-voltage characteristics. This steady-state device model describes the transport of free carriers, carrier recombination and optical generation. The optical part considers internal transmission, reflection, and absorption of light, using a transfer matrix approach. The carrier recombination in the form of radiative, Auger and Shockley-Read-Hall mechanisms is accounted for inside the perovskite capping layer, as well as interfacial recombination between the perovskite and electron/hole-transporting layers. After calibration by best-fitting the unknown parameters towards intensity dependent current-voltage measurements of an in-house fabricated meso-structured perovskite solar cell, we identify the dominant recombination mechanisms and their locations inside the cell. A subsequent loss analysis indicates that, in our fabricated solar cell, the interfacial recombination between the perovskite/mesoporous titanium dioxide within the mesoporous absorber layer constitutes the main loss channel. This interfacial recombination accounts for up to 46% of all recombination losses at maximum power, thereby exceeding the recombination inside the perovskite capping layer with 31% loss. Furthermore, the thickness of the perovskite capping layer and the mesoporous layer is varied by means of simulation between 50 and 500 nm, in order to predict the optimum device geometry for the calibrated recombination parameters. NRF (Natl Research Foundation, S’pore) EDB (Economic Devt. Board, S’pore) Published version 2017-12-22T01:37:13Z 2019-12-06T16:27:30Z 2017-12-22T01:37:13Z 2019-12-06T16:27:30Z 2017 Journal Article Xue, H., Fu, K., Wong, L. H., Birgersson, E., & Stangl, R. (2017). Modelling and loss analysis of meso-structured perovskite solar cells. Journal of Applied Physics, 122(8), 083105-. 0021-8979 https://hdl.handle.net/10356/86694 http://hdl.handle.net/10220/44191 10.1063/1.4986115 en Journal of Applied Physics © 2017 American Institute of Physics (AIP). This paper was published in Journal of Applied Physics and is made available as an electronic reprint (preprint) with permission of American Institute of Physics (AIP). The published version is available at: [http://dx.doi.org/10.1063/1.4986115]. One print or electronic copy may be made for personal use only. Systematic or multiple reproduction, distribution to multiple locations via electronic or other means, duplication of any material in this paper for a fee or for commercial purposes, or modification of the content of the paper is prohibited and is subject to penalties under law. 13 p. application/pdf |
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Materials Solar Cells Xue, Hansong Fu, Kunwu Wong, Lydia Helena Birgersson, Erik Stangl, Rolf Modelling and loss analysis of meso-structured perovskite solar cells |
| description |
A mathematical model for meso-structured perovskite solar cells is derived and calibrated towards measured intensity dependent current-voltage characteristics. This steady-state device model describes the transport of free carriers, carrier recombination and optical generation. The optical part considers internal transmission, reflection, and absorption of light, using a transfer matrix approach. The carrier recombination in the form of radiative, Auger and Shockley-Read-Hall mechanisms is accounted for inside the perovskite capping layer, as well as interfacial recombination between the perovskite and electron/hole-transporting layers. After calibration by best-fitting the unknown parameters towards intensity dependent current-voltage measurements of an in-house fabricated meso-structured perovskite solar cell, we identify the dominant recombination mechanisms and their locations inside the cell. A subsequent loss analysis indicates that, in our fabricated solar cell, the interfacial recombination between the perovskite/mesoporous titanium dioxide within the mesoporous absorber layer constitutes the main loss channel. This interfacial recombination accounts for up to 46% of all recombination losses at maximum power, thereby exceeding the recombination inside the perovskite capping layer with 31% loss. Furthermore, the thickness of the perovskite capping layer and the mesoporous layer is varied by means of simulation between 50 and 500 nm, in order to predict the optimum device geometry for the calibrated recombination parameters. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Xue, Hansong Fu, Kunwu Wong, Lydia Helena Birgersson, Erik Stangl, Rolf |
| format |
Article |
| author |
Xue, Hansong Fu, Kunwu Wong, Lydia Helena Birgersson, Erik Stangl, Rolf |
| author_sort |
Xue, Hansong |
| title |
Modelling and loss analysis of meso-structured perovskite solar cells |
| title_short |
Modelling and loss analysis of meso-structured perovskite solar cells |
| title_full |
Modelling and loss analysis of meso-structured perovskite solar cells |
| title_fullStr |
Modelling and loss analysis of meso-structured perovskite solar cells |
| title_full_unstemmed |
Modelling and loss analysis of meso-structured perovskite solar cells |
| title_sort |
modelling and loss analysis of meso-structured perovskite solar cells |
| publishDate |
2017 |
| url |
https://hdl.handle.net/10356/86694 http://hdl.handle.net/10220/44191 |
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1690658471351943168 |