Strong self-trapping by deformation potential limits photovoltaic performance in bismuth double perovskite

Bo Wu; Weihua Ning; Qiang Xu; Manukumara Manjappa; Minjun Feng; Senyun Ye; Jianhui Fu; Stener Lie; Tingting Yin; Feng Wang; Teck Wee Goh; Padinhare Cholakkal Harikesh; Yong Kang Eugene Tay; Ze Xiang Shen; Fuqiang Huang; Ranjan Singh; Guofu Zhou; Feng Gao; Tze Chien Sum

doi:10.1126/sciadv.abd3160

Strong self-trapping by deformation potential limits photovoltaic performance in bismuth double perovskite

Bo Wu^*, Weihua Ning, Qiang Xu, Manukumara Manjappa, Minjun Feng, Senyun Ye, Jianhui Fu, Stener Lie, Tingting Yin, Feng Wang, Teck Wee Goh, Padinhare Cholakkal Harikesh, Yong Kang Eugene Tay, Ze Xiang Shen, Fuqiang Huang, Ranjan Singh, Guofu Zhou^*, Feng Gao^*, Tze Chien Sum^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

123 Citations (Scopus)

Abstract

Bismuth-based double perovskite Cs₂AgBiBr₆is regarded as a potential candidate for low-toxicity, high-stability perovskite solar cells. However, its performance is far from satisfactory. Albeit being an indirect bandgap semiconductor, we observe bright emission with large bimolecular recombination coefficient (reaching 4.5 ± 0.1 × 10^-11cm³s^-1) and low charge carrier mobility (around 0.05 cm²s^-1V^-1). Besides intermediate Fröhlich couplings present in both Pb-based perovskites and Cs₂AgBiBr₆, we uncover evidence of strong deformation potential by acoustic phonons in the latter through transient reflection, time-resolved terahertz measurements, and density functional theory calculations. The Fröhlich and deformation potentials synergistically lead to ultrafast self-trapping of free carriers forming polarons highly localized on a few units of the lattice within a few picoseconds, which also breaks down the electronic band picture, leading to efficient radiative recombination. The strong self-trapping in Cs₂AgBiBr₆could impose intrinsic limitations for its application in photovoltaics.

Original language	English
Article number	eabd3160
Journal	Science advances
Volume	7
Issue number	8
DOIs	https://doi.org/10.1126/sciadv.abd3160
Publication status	Published - Feb 17 2021
Externally published	Yes

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© 2021 American Association for the Advancement of Science. All rights reserved.

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Wu, B., Ning, W., Xu, Q., Manjappa, M., Feng, M., Ye, S., Fu, J., Lie, S., Yin, T., Wang, F., Goh, T. W., Harikesh, P. C., Tay, Y. K. E., Shen, Z. X., Huang, F., Singh, R., Zhou, G., Gao, F., & Sum, T. C. (2021). Strong self-trapping by deformation potential limits photovoltaic performance in bismuth double perovskite. Science advances, 7(8), Article eabd3160. https://doi.org/10.1126/sciadv.abd3160

@article{39552813a0974160b14d4ffc3227b521,

title = "Strong self-trapping by deformation potential limits photovoltaic performance in bismuth double perovskite",

abstract = "Bismuth-based double perovskite Cs2AgBiBr6is regarded as a potential candidate for low-toxicity, high-stability perovskite solar cells. However, its performance is far from satisfactory. Albeit being an indirect bandgap semiconductor, we observe bright emission with large bimolecular recombination coefficient (reaching 4.5 ± 0.1 × 10-11cm3s-1) and low charge carrier mobility (around 0.05 cm2s-1V-1). Besides intermediate Fr{\"o}hlich couplings present in both Pb-based perovskites and Cs2AgBiBr6, we uncover evidence of strong deformation potential by acoustic phonons in the latter through transient reflection, time-resolved terahertz measurements, and density functional theory calculations. The Fr{\"o}hlich and deformation potentials synergistically lead to ultrafast self-trapping of free carriers forming polarons highly localized on a few units of the lattice within a few picoseconds, which also breaks down the electronic band picture, leading to efficient radiative recombination. The strong self-trapping in Cs2AgBiBr6could impose intrinsic limitations for its application in photovoltaics.",

author = "Bo Wu and Weihua Ning and Qiang Xu and Manukumara Manjappa and Minjun Feng and Senyun Ye and Jianhui Fu and Stener Lie and Tingting Yin and Feng Wang and Goh, \{Teck Wee\} and Harikesh, \{Padinhare Cholakkal\} and Tay, \{Yong Kang Eugene\} and Shen, \{Ze Xiang\} and Fuqiang Huang and Ranjan Singh and Guofu Zhou and Feng Gao and Sum, \{Tze Chien\}",

year = "2021",

month = feb,

day = "17",

doi = "10.1126/sciadv.abd3160",

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Wu, B, Ning, W, Xu, Q, Manjappa, M, Feng, M, Ye, S, Fu, J, Lie, S, Yin, T, Wang, F, Goh, TW, Harikesh, PC, Tay, YKE, Shen, ZX, Huang, F, Singh, R, Zhou, G, Gao, F & Sum, TC 2021, 'Strong self-trapping by deformation potential limits photovoltaic performance in bismuth double perovskite', Science advances, vol. 7, no. 8, eabd3160. https://doi.org/10.1126/sciadv.abd3160

TY - JOUR

T1 - Strong self-trapping by deformation potential limits photovoltaic performance in bismuth double perovskite

AU - Wu, Bo

AU - Ning, Weihua

AU - Xu, Qiang

AU - Manjappa, Manukumara

AU - Feng, Minjun

AU - Ye, Senyun

AU - Fu, Jianhui

AU - Lie, Stener

AU - Yin, Tingting

AU - Wang, Feng

AU - Goh, Teck Wee

AU - Harikesh, Padinhare Cholakkal

AU - Tay, Yong Kang Eugene

AU - Shen, Ze Xiang

AU - Huang, Fuqiang

AU - Singh, Ranjan

AU - Zhou, Guofu

AU - Gao, Feng

AU - Sum, Tze Chien

PY - 2021/2/17

Y1 - 2021/2/17

N2 - Bismuth-based double perovskite Cs2AgBiBr6is regarded as a potential candidate for low-toxicity, high-stability perovskite solar cells. However, its performance is far from satisfactory. Albeit being an indirect bandgap semiconductor, we observe bright emission with large bimolecular recombination coefficient (reaching 4.5 ± 0.1 × 10-11cm3s-1) and low charge carrier mobility (around 0.05 cm2s-1V-1). Besides intermediate Fröhlich couplings present in both Pb-based perovskites and Cs2AgBiBr6, we uncover evidence of strong deformation potential by acoustic phonons in the latter through transient reflection, time-resolved terahertz measurements, and density functional theory calculations. The Fröhlich and deformation potentials synergistically lead to ultrafast self-trapping of free carriers forming polarons highly localized on a few units of the lattice within a few picoseconds, which also breaks down the electronic band picture, leading to efficient radiative recombination. The strong self-trapping in Cs2AgBiBr6could impose intrinsic limitations for its application in photovoltaics.

AB - Bismuth-based double perovskite Cs2AgBiBr6is regarded as a potential candidate for low-toxicity, high-stability perovskite solar cells. However, its performance is far from satisfactory. Albeit being an indirect bandgap semiconductor, we observe bright emission with large bimolecular recombination coefficient (reaching 4.5 ± 0.1 × 10-11cm3s-1) and low charge carrier mobility (around 0.05 cm2s-1V-1). Besides intermediate Fröhlich couplings present in both Pb-based perovskites and Cs2AgBiBr6, we uncover evidence of strong deformation potential by acoustic phonons in the latter through transient reflection, time-resolved terahertz measurements, and density functional theory calculations. The Fröhlich and deformation potentials synergistically lead to ultrafast self-trapping of free carriers forming polarons highly localized on a few units of the lattice within a few picoseconds, which also breaks down the electronic band picture, leading to efficient radiative recombination. The strong self-trapping in Cs2AgBiBr6could impose intrinsic limitations for its application in photovoltaics.

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DO - 10.1126/sciadv.abd3160

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AN - SCOPUS:85101415308

SN - 2375-2548

VL - 7

JO - Science advances

JF - Science advances

IS - 8

M1 - eabd3160

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Strong self-trapping by deformation potential limits photovoltaic performance in bismuth double perovskite

Abstract

Bibliographical note

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