Cation influence on carrier dynamics in perovskite solar cells
Rubidium and Cesium cations (Rb + and Cs + ) incorporation recently emerged as a viable strategy to enhance perovskite solar cells (PSCs) efficiency. However, a clear understanding of the impact of these cations on the structure-function relationship in relation to the device performance is severely...
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sg-ntu-dr.10356-1378212023-02-28T19:48:04Z Cation influence on carrier dynamics in perovskite solar cells Solanki, Ankur Yadav, Pankaj Turren-Cruz, Silver-Hamill Lim, Swee Sien Saliba, Michael Sum, Tze Chien School of Physical and Mathematical Sciences Science::Physics Engineering::Materials Perovskite Solar Cell Rubidium Rubidium and Cesium cations (Rb + and Cs + ) incorporation recently emerged as a viable strategy to enhance perovskite solar cells (PSCs) efficiency. However, a clear understanding of the impact of these cations on the structure-function relationship in relation to the device performance is severely lacking. Here, we systematically investigate the influence of Rb + and Cs + on the carrier dynamics using transient optical spectroscopy and correlate with solar cell performance. Unlike Rb + , Cs + integrates well with methylammonium (MA + ) and formamidinium (FA + ) yielding increased perovskite grain size, longer charge carrier lifetimes and improved power conversion efficiency (PCE). Concomitant incorporation of Cs + /Rb + cooperatively retards radiative recombination by ~60% in the quaternary-cation based perovskite system (RbCsMAFA) compared to the dual-cation MAFA samples. By suppressing the defect density, PCEs around 20% are obtained along with more balanced charge carrier diffusion length and comparable photoluminescence quantum yield in quaternary-cation perovskites. While the synergistic addition of Rb + and Cs + is attractive for controlling defects and recombination losses in efficient solar cells development, sole incorporation of Rb + is still an engineering challenge. Importantly, our study explicates the underlying mechanisms behind the synergistic combination of cations to minimize the charge carrier losses and achieve high efficiency perovskite solar cells. Accepted version 2020-04-15T07:18:23Z 2020-04-15T07:18:23Z 2019 Journal Article Solanki, A., Yadav, P., Turren-Cruz, S.-H., Lim, S. S., Saliba, M., & Sum, T. C. (2019). Cation influence on carrier dynamics in perovskite solar cells. Nano Energy, 58, 604-611. doi:10.1016/j.nanoen.2019.01.060 2211-2855 https://hdl.handle.net/10356/137821 10.1016/j.nanoen.2019.01.060 2-s2.0-85061066567 58 604 611 en NTU SUG - M4080514 JSPS-NTU Joint Research Project M4082176 RG173/16 MOE2015-T2-2-015 MOE2016-T2-1-034 NRF-CRP14-2014-03 NRF-NRFI-2018-04 Nano Energy https://doi.org/10.21979/N9/KAG1U8 © 2019 Elsevier. All rights reserved. This paper was published in Nano Energy and is made available with permission of Elsevier. application/pdf |
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Science::Physics Engineering::Materials Perovskite Solar Cell Rubidium Solanki, Ankur Yadav, Pankaj Turren-Cruz, Silver-Hamill Lim, Swee Sien Saliba, Michael Sum, Tze Chien Cation influence on carrier dynamics in perovskite solar cells |
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Rubidium and Cesium cations (Rb + and Cs + ) incorporation recently emerged as a viable strategy to enhance perovskite solar cells (PSCs) efficiency. However, a clear understanding of the impact of these cations on the structure-function relationship in relation to the device performance is severely lacking. Here, we systematically investigate the influence of Rb + and Cs + on the carrier dynamics using transient optical spectroscopy and correlate with solar cell performance. Unlike Rb + , Cs + integrates well with methylammonium (MA + ) and formamidinium (FA + ) yielding increased perovskite grain size, longer charge carrier lifetimes and improved power conversion efficiency (PCE). Concomitant incorporation of Cs + /Rb + cooperatively retards radiative recombination by ~60% in the quaternary-cation based perovskite system (RbCsMAFA) compared to the dual-cation MAFA samples. By suppressing the defect density, PCEs around 20% are obtained along with more balanced charge carrier diffusion length and comparable photoluminescence quantum yield in quaternary-cation perovskites. While the synergistic addition of Rb + and Cs + is attractive for controlling defects and recombination losses in efficient solar cells development, sole incorporation of Rb + is still an engineering challenge. Importantly, our study explicates the underlying mechanisms behind the synergistic combination of cations to minimize the charge carrier losses and achieve high efficiency perovskite solar cells. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Solanki, Ankur Yadav, Pankaj Turren-Cruz, Silver-Hamill Lim, Swee Sien Saliba, Michael Sum, Tze Chien |
| format |
Article |
| author |
Solanki, Ankur Yadav, Pankaj Turren-Cruz, Silver-Hamill Lim, Swee Sien Saliba, Michael Sum, Tze Chien |
| author_sort |
Solanki, Ankur |
| title |
Cation influence on carrier dynamics in perovskite solar cells |
| title_short |
Cation influence on carrier dynamics in perovskite solar cells |
| title_full |
Cation influence on carrier dynamics in perovskite solar cells |
| title_fullStr |
Cation influence on carrier dynamics in perovskite solar cells |
| title_full_unstemmed |
Cation influence on carrier dynamics in perovskite solar cells |
| title_sort |
cation influence on carrier dynamics in perovskite solar cells |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/137821 https://doi.org/10.21979/N9/KAG1U8 |
| _version_ |
1759857872753131520 |