Molecular Design of Hole Transport Materials to Immobilize Ion Motion for Photostable Perovskite Solar Cells

Zhang, Zheng; Duan, Chenghao; Wang, Sijing; Xie, Tianyou; Zou, Feilin; Luo, Yang; Tang, Ruijia; Guo, Kunpeng; Yuan, Ligang; Zhang, Kaicheng; Wang, Yao; Qiu, Jianhang; Yan, Keyou

doi:10.1002/anie.202412042

Angew Chem Int Ed

2024

DOI: 10.1002/anie.202412042

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Molecular Design of Hole Transport Materials to Immobilize Ion Motion for Photostable Perovskite Solar Cells

Zheng Zhang,

Chenghao Duan,

Sijing Wang

et al.

Abstract: Poor operational stability is a crucial factor limiting the further application of perovskite solar cells (PSCs). Organic semiconductor layers can be a powerful means for reinforcing interfaces and inhibiting ion migration. Herein, two hole‐transporting molecules, pDPA‐SFX and mDPA‐SFX, are synthesized with tuned substituent connection sites. The meta‐substituted mDPA‐SFX results in a larger dipole moment, more ordered packing, and better charge mobility than pDPA‐SFX, accompany with strong interface bonding o… Show more

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Heterogeneous Amine with Polycyclic‐Aromatics‐Modified Hole Transport Material for Efficient and Operationally Durable Perovskite Solar Cells

Luo,

Li,

et al. 2024

Adv Funct Materials

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Achieving efficient perovskite solar cells (PSCs) with high operational durability is a challenging task. Here, by exploiting the heterogeneous amine strategy at the molecular level, a novel spirobifluorene derivative bearing methoxynaphthalene and 9,9‐dimethylfluorene heterogeneous amine peripheral groups (N2,N2′,N7,N7′‐tetrakis(9,9‐dimethyl‐9H‐fluoren‐2‐yl)‐N2,N2′,N7,N7′‐tetrakis(6‐methoxynaphthalen‐2‐yl)‐9,9′‐spirobi[fluorene]‐2,2′,7,7′‐tetraamine, denoted as Spiro‐NADF) as a hole transport material (HTM) is developed to address the efficiency and durability issues of PSCs. Compared with 2,2′,7,7′‐tetrakis(N,N‐di‐p‐methoxyphenyl)‐amine‐9,9′‐spirobifluorene, Spiro‐NADF exhibits not only favorable energy level alignment but also a higher glass transition temperature and strong adhesion to perovskite. Moreover, Spiro‐NADF‐based transport layer shows excellent morphological stability in devices against damp heat stress. These advantages reduce voltage loss and suppress perovskite decomposition and ion migration. Consequently, PSCs based on Spiro‐NADF exhibit a champion efficiency of 24.66% with an open‐circuit voltage of 1.19 V. The corresponding cells show greatly enhanced operational durability against harsh environments, retaining over 92% of the initial efficiencies for 500 h aging under a damp heat test (85 °C and 70–90% relative humidity) and illumination under the maximum power point tracking, respectively. This work demonstrates that molecular engineering of HTMs using heterogeneous amines with polycyclic aromatics leaves considerable room for developing efficient and stable PSCs.

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Heterogeneous Amine with Polycyclic‐Aromatics‐Modified Hole Transport Material for Efficient and Operationally Durable Perovskite Solar Cells

Luo,

Li,

et al. 2024

Adv Funct Materials

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show abstract

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Molecular Design of Hole Transport Materials to Immobilize Ion Motion for Photostable Perovskite Solar Cells

Cited by 1 publication

References 53 publications

Heterogeneous Amine with Polycyclic‐Aromatics‐Modified Hole Transport Material for Efficient and Operationally Durable Perovskite Solar Cells

Heterogeneous Amine with Polycyclic‐Aromatics‐Modified Hole Transport Material for Efficient and Operationally Durable Perovskite Solar Cells

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