Boosting the stability of indoor perovskite solar cells by the rational selection of electron transport layers

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Boosting the stability of indoor perovskite solar cells by the rational selection of electron transport layers. / Agapitova, Mariia M.; Novikov, Artyom V.; Zhivchikova, Alexandra N.; Trepalin, Oleg R.; Kuznetsov, Ilya E.; Parfenova, Olga R.; Zagorovskaia, Kseniia D.; Malkin, Nikita A.; Brotsman, Victor A.; Zhizhin, Evgeniy V.; Koroleva, Aleksandra V.; Baryshev, Stepan A.; Goldt, Anastasia E.; Boldyreva, Aleksandra G.; Akkuratov, Alexander V.; Goryunkov, Alexey A.; Luchkin, Sergey Y.; Tepliakova, Marina M.

In: Applied Physics Letters, Vol. 127, No. 2, 023906, 17.07.2025.

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

Harvard

Agapitova, MM, Novikov, AV, Zhivchikova, AN, Trepalin, OR, Kuznetsov, IE, Parfenova, OR, Zagorovskaia, KD, Malkin, NA, Brotsman, VA, Zhizhin, EV, Koroleva, AV, Baryshev, SA, Goldt, AE, Boldyreva, AG, Akkuratov, AV, Goryunkov, AA, Luchkin, SY & Tepliakova, MM 2025, 'Boosting the stability of indoor perovskite solar cells by the rational selection of electron transport layers', Applied Physics Letters, vol. 127, no. 2, 023906. https://doi.org/10.1063/5.0270607

APA

Agapitova, M. M., Novikov, A. V., Zhivchikova, A. N., Trepalin, O. R., Kuznetsov, I. E., Parfenova, O. R., Zagorovskaia, K. D., Malkin, N. A., Brotsman, V. A., Zhizhin, E. V., Koroleva, A. V., Baryshev, S. A., Goldt, A. E., Boldyreva, A. G., Akkuratov, A. V., Goryunkov, A. A., Luchkin, S. Y., & Tepliakova, M. M. (2025). Boosting the stability of indoor perovskite solar cells by the rational selection of electron transport layers. Applied Physics Letters, 127(2), [023906]. https://doi.org/10.1063/5.0270607

Vancouver

Agapitova MM, Novikov AV, Zhivchikova AN, Trepalin OR, Kuznetsov IE, Parfenova OR et al. Boosting the stability of indoor perovskite solar cells by the rational selection of electron transport layers. Applied Physics Letters. 2025 Jul 17;127(2). 023906. https://doi.org/10.1063/5.0270607

Author

Agapitova, Mariia M. ; Novikov, Artyom V. ; Zhivchikova, Alexandra N. ; Trepalin, Oleg R. ; Kuznetsov, Ilya E. ; Parfenova, Olga R. ; Zagorovskaia, Kseniia D. ; Malkin, Nikita A. ; Brotsman, Victor A. ; Zhizhin, Evgeniy V. ; Koroleva, Aleksandra V. ; Baryshev, Stepan A. ; Goldt, Anastasia E. ; Boldyreva, Aleksandra G. ; Akkuratov, Alexander V. ; Goryunkov, Alexey A. ; Luchkin, Sergey Y. ; Tepliakova, Marina M. / Boosting the stability of indoor perovskite solar cells by the rational selection of electron transport layers. In: Applied Physics Letters. 2025 ; Vol. 127, No. 2.

BibTeX

@article{618cc408b79c48cd9b0de77a5104931c,

title = "Boosting the stability of indoor perovskite solar cells by the rational selection of electron transport layers",

abstract = "This study investigates a series of electron transport materials (ETMs) in wide-bandgap perovskite solar cells with the Cs0.17FA0.83Pb(I0.6Br0.4)3 photoactive layer. Power conversion efficiencies of up to 23.21000 lux, 6000 K LED) for the devices incorporating SnO2 passivated with fullerene derivative. However, the fullerene derivative induced rapid interfacial degradation. In contrast, solar cells utilizing SnO2 ETM passivated with amino-based compounds exhibited stable performance under continuous 1 Sun illumination during 2300 h in an inert atmosphere and under indoor lighting in ambient conditions. This was attributed to a reduced density of defects on the surface of the ETM and enhanced interfacial stability. These findings underscore the importance of the rational ETM selection for efficient and stable wide-bandgap perovskites.",

author = "Agapitova, {Mariia M.} and Novikov, {Artyom V.} and Zhivchikova, {Alexandra N.} and Trepalin, {Oleg R.} and Kuznetsov, {Ilya E.} and Parfenova, {Olga R.} and Zagorovskaia, {Kseniia D.} and Malkin, {Nikita A.} and Brotsman, {Victor A.} and Zhizhin, {Evgeniy V.} and Koroleva, {Aleksandra V.} and Baryshev, {Stepan A.} and Goldt, {Anastasia E.} and Boldyreva, {Aleksandra G.} and Akkuratov, {Alexander V.} and Goryunkov, {Alexey A.} and Luchkin, {Sergey Y.} and Tepliakova, {Marina M.}",

year = "2025",

month = jul,

day = "17",

doi = "10.1063/5.0270607",

language = "English",

volume = "127",

journal = "Applied Physics Letters",

issn = "0003-6951",

publisher = "American Institute of Physics",

number = "2",

}

RIS

TY - JOUR

T1 - Boosting the stability of indoor perovskite solar cells by the rational selection of electron transport layers

AU - Agapitova, Mariia M.

AU - Novikov, Artyom V.

AU - Zhivchikova, Alexandra N.

AU - Trepalin, Oleg R.

AU - Kuznetsov, Ilya E.

AU - Parfenova, Olga R.

AU - Zagorovskaia, Kseniia D.

AU - Malkin, Nikita A.

AU - Brotsman, Victor A.

AU - Zhizhin, Evgeniy V.

AU - Koroleva, Aleksandra V.

AU - Baryshev, Stepan A.

AU - Goldt, Anastasia E.

AU - Boldyreva, Aleksandra G.

AU - Akkuratov, Alexander V.

AU - Goryunkov, Alexey A.

AU - Luchkin, Sergey Y.

AU - Tepliakova, Marina M.

PY - 2025/7/17

Y1 - 2025/7/17

N2 - This study investigates a series of electron transport materials (ETMs) in wide-bandgap perovskite solar cells with the Cs0.17FA0.83Pb(I0.6Br0.4)3 photoactive layer. Power conversion efficiencies of up to 23.21000 lux, 6000 K LED) for the devices incorporating SnO2 passivated with fullerene derivative. However, the fullerene derivative induced rapid interfacial degradation. In contrast, solar cells utilizing SnO2 ETM passivated with amino-based compounds exhibited stable performance under continuous 1 Sun illumination during 2300 h in an inert atmosphere and under indoor lighting in ambient conditions. This was attributed to a reduced density of defects on the surface of the ETM and enhanced interfacial stability. These findings underscore the importance of the rational ETM selection for efficient and stable wide-bandgap perovskites.

AB - This study investigates a series of electron transport materials (ETMs) in wide-bandgap perovskite solar cells with the Cs0.17FA0.83Pb(I0.6Br0.4)3 photoactive layer. Power conversion efficiencies of up to 23.21000 lux, 6000 K LED) for the devices incorporating SnO2 passivated with fullerene derivative. However, the fullerene derivative induced rapid interfacial degradation. In contrast, solar cells utilizing SnO2 ETM passivated with amino-based compounds exhibited stable performance under continuous 1 Sun illumination during 2300 h in an inert atmosphere and under indoor lighting in ambient conditions. This was attributed to a reduced density of defects on the surface of the ETM and enhanced interfacial stability. These findings underscore the importance of the rational ETM selection for efficient and stable wide-bandgap perovskites.

UR - https://www.mendeley.com/catalogue/12483c4b-7cea-3e22-9e15-4da63508d861/

U2 - 10.1063/5.0270607

DO - 10.1063/5.0270607

M3 - Article

VL - 127

JO - Applied Physics Letters

JF - Applied Physics Letters

SN - 0003-6951

IS - 2

M1 - 023906

ER -

ID: 138386191