Graphene‐Like Conjugated Molecule as Hole‐Selective Contact for Operationally Stable Inverted Perovskite Solar Cells and Modules

Graphene‐Like Conjugated Molecule as Hole‐Selective Contact for Operationally Stable Inverted Perovskite Solar Cells and Modules

Further enhancing the operational lifetime of inverted‐structure perovskite solar cells (PSCs) is crucial for their commercialization, and the design of hole‐selective contacts at the illumination side plays a key role in operational stability. In this work, the self‐anchoring benzo[rst]pentaphene (...

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Veröffentlicht in:Advanced materials (Weinheim) 2023-05, Vol.35 (21), p.e2300169-n/a
Hauptverfasser: Wu, Tianhao, Xu, Xiushang, Ono, Luis K., Guo, Ting, Mariotti, Silvia, Ding, Chenfeng, Yuan, Shuai, Zhang, Congyang, Zhang, Jiahao, Mitrofanov, Kirill, Zhang, Qizheng, Raj, Saurav, Liu, Xiao, Segawa, Hiroshi, Ji, Penghui, Li, Tongtong, Kabe, Ryota, Han, Liyuan, Narita, Akimitsu, Qi, Yabing
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Carbazoles
Commercialization
Graphene
graphene‐like conjugated molecule
hole‐selective contact
Illumination
inverted perovskite solar cell
Materials science
Maximum power
Modules
Molecular structure
operational stability
Perovskites
Photovoltaic cells
Solar cells
solar module
Stability
Substrates
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container_issue 21
container_start_page e2300169
container_title Advanced materials (Weinheim)
container_volume 35
creator Wu, Tianhao
Xu, Xiushang
Ono, Luis K.
Guo, Ting
Mariotti, Silvia
Ding, Chenfeng
Yuan, Shuai
Zhang, Congyang
Zhang, Jiahao
Mitrofanov, Kirill
Zhang, Qizheng
Raj, Saurav
Liu, Xiao
Segawa, Hiroshi
Ji, Penghui
Li, Tongtong
Kabe, Ryota
Han, Liyuan
Narita, Akimitsu
Qi, Yabing
description Further enhancing the operational lifetime of inverted‐structure perovskite solar cells (PSCs) is crucial for their commercialization, and the design of hole‐selective contacts at the illumination side plays a key role in operational stability. In this work, the self‐anchoring benzo[rst]pentaphene (SA‐BPP) is developed as a new type of hole‐selective contact toward long‐term operationally stable inverted PSCs. The SA‐BPP molecule with a graphene‐like conjugated structure shows a higher photostability and mobility than that of the frequently‐used triphenylamine and carbazole‐based hole‐selective molecules. Besides, the anchoring groups of SA‐BPP promote the formation of a large‐scale uniform hole contact on ITO substrate and efficiently passivate the perovskite absorbers. Benefiting from these merits, the champion efficiencies of 22.03% for the small‐sized cells and 17.08% for 5 × 5 cm2 solar modules on an aperture area of 22.4 cm2 are achieved based on this SA‐BPP contact. Also, the SA‐BPP‐based device exhibits promising operational stability, with an efficiency retention of 87.4% after 2000 h continuous operation at the maximum power point under simulated 1‐sun illumination, which indicates an estimated T80 lifetime of 3175 h. This novel design concept of hole‐selective contacts provides a promising strategy for further improving the PSC stability. A photostable graphene‐like conjugated molecule is developed as the hole‐selective contact to improve the operational lifetime of inverted perovskite solar cells, enabling an estimated device operational lifetime of over 3000 h.
doi_str_mv 10.1002/adma.202300169
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In this work, the self‐anchoring benzo[rst]pentaphene (SA‐BPP) is developed as a new type of hole‐selective contact toward long‐term operationally stable inverted PSCs. The SA‐BPP molecule with a graphene‐like conjugated structure shows a higher photostability and mobility than that of the frequently‐used triphenylamine and carbazole‐based hole‐selective molecules. Besides, the anchoring groups of SA‐BPP promote the formation of a large‐scale uniform hole contact on ITO substrate and efficiently passivate the perovskite absorbers. Benefiting from these merits, the champion efficiencies of 22.03% for the small‐sized cells and 17.08% for 5 × 5 cm2 solar modules on an aperture area of 22.4 cm2 are achieved based on this SA‐BPP contact. Also, the SA‐BPP‐based device exhibits promising operational stability, with an efficiency retention of 87.4% after 2000 h continuous operation at the maximum power point under simulated 1‐sun illumination, which indicates an estimated T80 lifetime of 3175 h. This novel design concept of hole‐selective contacts provides a promising strategy for further improving the PSC stability. A photostable graphene‐like conjugated molecule is developed as the hole‐selective contact to improve the operational lifetime of inverted perovskite solar cells, enabling an estimated device operational lifetime of over 3000 h.</abstract><cop>Germany</cop><pub>Wiley Subscription Services, Inc</pub><pmid>36884267</pmid><doi>10.1002/adma.202300169</doi><tpages>14</tpages><orcidid>https://orcid.org/0000-0002-4876-8049</orcidid><oa>free_for_read</oa></addata></record>
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source Wiley Online Library Journals Frontfile Complete
subjects Carbazoles
Commercialization
Graphene
graphene‐like conjugated molecule
hole‐selective contact
Illumination
inverted perovskite solar cell
Materials science
Maximum power
Modules
Molecular structure
operational stability
Perovskites
Photovoltaic cells
Solar cells
solar module
Stability
Substrates
title Graphene‐Like Conjugated Molecule as Hole‐Selective Contact for Operationally Stable Inverted Perovskite Solar Cells and Modules
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