Increased resistance to photooxidation in Dion-Jacobson lead halide perovskites: Implication for perovskite device stability

Zhilin Ren; Juraj Ovčar; Tik Lun Leung; Yanling He; Yin Li; Dongyang Li; Xinshun Qin; Hongbo Mo; Zhengtian Yuan; Jueming Bing; Martin P. Bucknall; Luca Grisanti; Muhammad Umair Ali; Peng Bai; Tao Zhu; Ali Ashger Syed; Jingyang Lin; Jingbo Wang; Abdul Khaleed; Wenting Sun; Gangyue Li; Gang Li; Alan Man Ching Ng; Anita W.Y. Ho-Baillie; Ivor Lončarić; Jasminka Popović; Aleksandra B. Djurišić

doi:10.1016/j.matt.2024.11.031

Increased resistance to photooxidation in Dion-Jacobson lead halide perovskites: Implication for perovskite device stability

Zhilin Ren
, Juraj Ovčar
, Tik Lun Leung
, Yanling He
, Yin Li
, Dongyang Li
, Xinshun Qin
, Hongbo Mo
, Zhengtian Yuan
, Jueming Bing
, Martin P. Bucknall
, Luca Grisanti
, Muhammad Umair Ali
, Peng Bai
, Tao Zhu
, Ali Ashger Syed
, Jingyang Lin
, Jingbo Wang
, Abdul Khaleed
, Wenting Sun

Gangyue Li, Gang Li, Alan Man Ching Ng, Anita W.Y. Ho-Baillie, Ivor Lončarić, Jasminka Popović, Aleksandra B. Djurišić

Research output: Journal article publication › Journal article › Academic research › peer-review

19 Citations (Scopus)

Abstract

2D metal halide perovskites have enabled significant stability improvements in perovskite devices, particularly in resistance to moisture. However, some 2D perovskites are even more susceptible to photooxidation compared to 3D perovskites. This is particularly true for more commonly investigated Ruddlesden-Popper (RP) perovskites, which exhibit increased susceptibility to photoinduced degradation compared to Dion-Jacobson (DJ) perovskites. Comparisons between different RP and DJ perovskites reveal that this phenomenon cannot be explained by commonly proposed differences in superoxide ion generation, interlayer distance, or lattice structural rigidity differences. Instead, the resistance to photooxidation of DJ perovskites can be attributed to a decreased likelihood of double deprotonation events (compared to single deprotonation events in RP perovskites) required for the loss of organic cations and perovskite decomposition. Consequently, DJ perovskites are less susceptible to oxidative degradation (induced both photo- and electrochemically), which leads to improved operational stability of solar cells based on these materials.

Original language	English
Article number	101937
Pages (from-to)	1-12
Journal	Matter
DOIs	https://doi.org/10.1016/j.matt.2024.11.031
Publication status	Published - Dec 2024

Keywords

2D perovskite
Dion-Jacobson perovskites
lead halide perovskite photostability
MAP 3: Understanding
perovskite solar cell stability
Ruddlesden-Popper perovskites

ASJC Scopus subject areas

General Materials Science

More information

10.1016/j.matt.2024.11.031

Cite this

Ren, Z., Ovčar, J., Leung, T. L., He, Y., Li, Y., Li, D., Qin, X., Mo, H., Yuan, Z., Bing, J., Bucknall, M. P., Grisanti, L., Ali, M. U., Bai, P., Zhu, T., Syed, A. A., Lin, J., Wang, J., Khaleed, A., ... Djurišić, A. B. (2024). Increased resistance to photooxidation in Dion-Jacobson lead halide perovskites: Implication for perovskite device stability. Matter, 1-12. Article 101937. https://doi.org/10.1016/j.matt.2024.11.031

@article{c483b96cb53149549c7725e41f79d577,

title = "Increased resistance to photooxidation in Dion-Jacobson lead halide perovskites: Implication for perovskite device stability",

abstract = "2D metal halide perovskites have enabled significant stability improvements in perovskite devices, particularly in resistance to moisture. However, some 2D perovskites are even more susceptible to photooxidation compared to 3D perovskites. This is particularly true for more commonly investigated Ruddlesden-Popper (RP) perovskites, which exhibit increased susceptibility to photoinduced degradation compared to Dion-Jacobson (DJ) perovskites. Comparisons between different RP and DJ perovskites reveal that this phenomenon cannot be explained by commonly proposed differences in superoxide ion generation, interlayer distance, or lattice structural rigidity differences. Instead, the resistance to photooxidation of DJ perovskites can be attributed to a decreased likelihood of double deprotonation events (compared to single deprotonation events in RP perovskites) required for the loss of organic cations and perovskite decomposition. Consequently, DJ perovskites are less susceptible to oxidative degradation (induced both photo- and electrochemically), which leads to improved operational stability of solar cells based on these materials.",

keywords = "2D perovskite, Dion-Jacobson perovskites, lead halide perovskite photostability, MAP 3: Understanding, perovskite solar cell stability, Ruddlesden-Popper perovskites",

author = "Zhilin Ren and Juraj Ov{\v c}ar and Leung, \{Tik Lun\} and Yanling He and Yin Li and Dongyang Li and Xinshun Qin and Hongbo Mo and Zhengtian Yuan and Jueming Bing and Bucknall, \{Martin P.\} and Luca Grisanti and Ali, \{Muhammad Umair\} and Peng Bai and Tao Zhu and Syed, \{Ali Ashger\} and Jingyang Lin and Jingbo Wang and Abdul Khaleed and Wenting Sun and Gangyue Li and Gang Li and Ng, \{Alan Man Ching\} and Ho-Baillie, \{Anita W.Y.\} and Ivor Lon{\v c}ari{\'c} and Jasminka Popovi{\'c} and Djuri{\v s}i{\'c}, \{Aleksandra B.\}",

note = "Publisher Copyright: {\textcopyright} 2024 Elsevier Inc.",

year = "2024",

month = dec,

doi = "10.1016/j.matt.2024.11.031",

language = "English",

pages = "1--12",

journal = "Matter",

issn = "2590-2393",

publisher = "Cell Press",

}

Ren, Z, Ovčar, J, Leung, TL, He, Y, Li, Y, Li, D, Qin, X, Mo, H, Yuan, Z, Bing, J, Bucknall, MP, Grisanti, L, Ali, MU, Bai, P, Zhu, T, Syed, AA, Lin, J, Wang, J, Khaleed, A, Sun, W, Li, G, Li, G, Ng, AMC, Ho-Baillie, AWY, Lončarić, I, Popović, J & Djurišić, AB 2024, 'Increased resistance to photooxidation in Dion-Jacobson lead halide perovskites: Implication for perovskite device stability', Matter, pp. 1-12. https://doi.org/10.1016/j.matt.2024.11.031

TY - JOUR

T1 - Increased resistance to photooxidation in Dion-Jacobson lead halide perovskites: Implication for perovskite device stability

AU - Ren, Zhilin

AU - Ovčar, Juraj

AU - Leung, Tik Lun

AU - He, Yanling

AU - Li, Yin

AU - Li, Dongyang

AU - Qin, Xinshun

AU - Mo, Hongbo

AU - Yuan, Zhengtian

AU - Bing, Jueming

AU - Bucknall, Martin P.

AU - Grisanti, Luca

AU - Ali, Muhammad Umair

AU - Bai, Peng

AU - Zhu, Tao

AU - Syed, Ali Ashger

AU - Lin, Jingyang

AU - Wang, Jingbo

AU - Khaleed, Abdul

AU - Sun, Wenting

AU - Li, Gangyue

AU - Li, Gang

AU - Ng, Alan Man Ching

AU - Ho-Baillie, Anita W.Y.

AU - Lončarić, Ivor

AU - Popović, Jasminka

AU - Djurišić, Aleksandra B.

PY - 2024/12

Y1 - 2024/12

N2 - 2D metal halide perovskites have enabled significant stability improvements in perovskite devices, particularly in resistance to moisture. However, some 2D perovskites are even more susceptible to photooxidation compared to 3D perovskites. This is particularly true for more commonly investigated Ruddlesden-Popper (RP) perovskites, which exhibit increased susceptibility to photoinduced degradation compared to Dion-Jacobson (DJ) perovskites. Comparisons between different RP and DJ perovskites reveal that this phenomenon cannot be explained by commonly proposed differences in superoxide ion generation, interlayer distance, or lattice structural rigidity differences. Instead, the resistance to photooxidation of DJ perovskites can be attributed to a decreased likelihood of double deprotonation events (compared to single deprotonation events in RP perovskites) required for the loss of organic cations and perovskite decomposition. Consequently, DJ perovskites are less susceptible to oxidative degradation (induced both photo- and electrochemically), which leads to improved operational stability of solar cells based on these materials.

AB - 2D metal halide perovskites have enabled significant stability improvements in perovskite devices, particularly in resistance to moisture. However, some 2D perovskites are even more susceptible to photooxidation compared to 3D perovskites. This is particularly true for more commonly investigated Ruddlesden-Popper (RP) perovskites, which exhibit increased susceptibility to photoinduced degradation compared to Dion-Jacobson (DJ) perovskites. Comparisons between different RP and DJ perovskites reveal that this phenomenon cannot be explained by commonly proposed differences in superoxide ion generation, interlayer distance, or lattice structural rigidity differences. Instead, the resistance to photooxidation of DJ perovskites can be attributed to a decreased likelihood of double deprotonation events (compared to single deprotonation events in RP perovskites) required for the loss of organic cations and perovskite decomposition. Consequently, DJ perovskites are less susceptible to oxidative degradation (induced both photo- and electrochemically), which leads to improved operational stability of solar cells based on these materials.

KW - 2D perovskite

KW - Dion-Jacobson perovskites

KW - lead halide perovskite photostability

KW - MAP 3: Understanding

KW - perovskite solar cell stability

KW - Ruddlesden-Popper perovskites

UR - https://www.scopus.com/pages/publications/85214346425

U2 - 10.1016/j.matt.2024.11.031

DO - 10.1016/j.matt.2024.11.031

M3 - Journal article

AN - SCOPUS:85214346425

SN - 2590-2393

SP - 1

EP - 12

JO - Matter

JF - Matter

M1 - 101937

ER -

Increased resistance to photooxidation in Dion-Jacobson lead halide perovskites: Implication for perovskite device stability

Abstract

Keywords

ASJC Scopus subject areas

More information

Other files and links

Fingerprint

Cite this