Stabilizing black-phase formamidinium perovskite formation at room temperature and high humidity

Wei Hui; Lingfeng Chao; Hui Lu; Fei Xia; Qi Wei; Zhenhuang Su; Tingting Niu; Lei Tao; Bin Du; Deli Li; Yue Wang; He Dong; Shouwei Zuo; Bixin Li; Wei Shi; Xueqin Ran; Ping Li; Hui Zhang; Zhongbin Wu; Chenxin Ran; Lin Song; Guichuan Xing; Xingyu Gao; Jing Zhang; Yingdong Xia; Yonghua Chen; Wei Huang

doi:10.1126/science.abf7652

Stabilizing black-phase formamidinium perovskite formation at room temperature and high humidity

Wei Hui, Lingfeng Chao, Hui Lu, Fei Xia, Qi Wei, Zhenhuang Su, Tingting Niu, Lei Tao, Bin Du, Deli Li, Yue Wang, He Dong, Shouwei Zuo, Bixin Li, Wei Shi, Xueqin Ran, Ping Li, Hui Zhang, Zhongbin Wu, Chenxin RanLin Song, Guichuan Xing, Xingyu Gao, Jing Zhang, Yingdong Xia, Yonghua Chen, Wei Huang

SCHOOL OF FLEXIBLE ELECTRONICS(FUTURE TECHNOLOGIES)|INSTITUTE OF ADVANCED MATERIALS(IAM)

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

626 Scopus citations

Abstract

The stabilization of black-phase formamidinium lead iodide (a-FAPbI₃) perovskite under various environmental conditions is considered necessary for solar cells. However, challenges remain regarding the temperature sensitivity of a-FAPbI₃ and the requirements for strict humidity control in its processing. Here we report the synthesis of stable a-FAPbI₃, regardless of humidity and temperature, based on a vertically aligned lead iodide thin film grown from an ionic liquid, methylamine formate. The vertically grown structure has numerous nanometer-scale ion channels that facilitate the permeation of formamidinium iodide into the lead iodide thin films for fast and robust transformation to a-FAPbI₃. A solar cell with a power-conversion efficiency of 24.1% was achieved. The unencapsulated cells retain 80 and 90% of their initial efficiencies for 500 hours at 85°C and continuous light stress, respectively.

Original language	English
Pages (from-to)	1359-1364
Number of pages	6
Journal	Science
Volume	371
Issue number	6536
DOIs	https://doi.org/10.1126/science.abf7652
State	Published - 26 Mar 2021

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@article{f3b19f273d3d4f2084e6c9637f65dd1e,

title = "Stabilizing black-phase formamidinium perovskite formation at room temperature and high humidity",

abstract = "The stabilization of black-phase formamidinium lead iodide (a-FAPbI3) perovskite under various environmental conditions is considered necessary for solar cells. However, challenges remain regarding the temperature sensitivity of a-FAPbI3 and the requirements for strict humidity control in its processing. Here we report the synthesis of stable a-FAPbI3, regardless of humidity and temperature, based on a vertically aligned lead iodide thin film grown from an ionic liquid, methylamine formate. The vertically grown structure has numerous nanometer-scale ion channels that facilitate the permeation of formamidinium iodide into the lead iodide thin films for fast and robust transformation to a-FAPbI3. A solar cell with a power-conversion efficiency of 24.1% was achieved. The unencapsulated cells retain 80 and 90% of their initial efficiencies for 500 hours at 85°C and continuous light stress, respectively.",

author = "Wei Hui and Lingfeng Chao and Hui Lu and Fei Xia and Qi Wei and Zhenhuang Su and Tingting Niu and Lei Tao and Bin Du and Deli Li and Yue Wang and He Dong and Shouwei Zuo and Bixin Li and Wei Shi and Xueqin Ran and Ping Li and Hui Zhang and Zhongbin Wu and Chenxin Ran and Lin Song and Guichuan Xing and Xingyu Gao and Jing Zhang and Yingdong Xia and Yonghua Chen and Wei Huang",

year = "2021",

month = mar,

day = "26",

doi = "10.1126/science.abf7652",

language = "英语",

volume = "371",

pages = "1359--1364",

journal = "Science",

issn = "0036-8075",

publisher = "American Association for the Advancement of Science",

number = "6536",

}

Hui, W, Chao, L, Lu, H, Xia, F, Wei, Q, Su, Z, Niu, T, Tao, L, Du, B, Li, D, Wang, Y, Dong, H, Zuo, S, Li, B, Shi, W, Ran, X , Li, P, Zhang, H, Wu, Z, Ran, C, Song, L, Xing, G, Gao, X, Zhang, J, Xia, Y , Chen, Y & Huang, W 2021, 'Stabilizing black-phase formamidinium perovskite formation at room temperature and high humidity', Science, vol. 371, no. 6536, pp. 1359-1364. https://doi.org/10.1126/science.abf7652

TY - JOUR

T1 - Stabilizing black-phase formamidinium perovskite formation at room temperature and high humidity

AU - Hui, Wei

AU - Chao, Lingfeng

AU - Lu, Hui

AU - Xia, Fei

AU - Wei, Qi

AU - Su, Zhenhuang

AU - Niu, Tingting

AU - Tao, Lei

AU - Du, Bin

AU - Li, Deli

AU - Wang, Yue

AU - Dong, He

AU - Zuo, Shouwei

AU - Li, Bixin

AU - Shi, Wei

AU - Ran, Xueqin

AU - Li, Ping

AU - Zhang, Hui

AU - Wu, Zhongbin

AU - Ran, Chenxin

AU - Song, Lin

AU - Xing, Guichuan

AU - Gao, Xingyu

AU - Zhang, Jing

AU - Xia, Yingdong

AU - Chen, Yonghua

AU - Huang, Wei

PY - 2021/3/26

Y1 - 2021/3/26

N2 - The stabilization of black-phase formamidinium lead iodide (a-FAPbI3) perovskite under various environmental conditions is considered necessary for solar cells. However, challenges remain regarding the temperature sensitivity of a-FAPbI3 and the requirements for strict humidity control in its processing. Here we report the synthesis of stable a-FAPbI3, regardless of humidity and temperature, based on a vertically aligned lead iodide thin film grown from an ionic liquid, methylamine formate. The vertically grown structure has numerous nanometer-scale ion channels that facilitate the permeation of formamidinium iodide into the lead iodide thin films for fast and robust transformation to a-FAPbI3. A solar cell with a power-conversion efficiency of 24.1% was achieved. The unencapsulated cells retain 80 and 90% of their initial efficiencies for 500 hours at 85°C and continuous light stress, respectively.

AB - The stabilization of black-phase formamidinium lead iodide (a-FAPbI3) perovskite under various environmental conditions is considered necessary for solar cells. However, challenges remain regarding the temperature sensitivity of a-FAPbI3 and the requirements for strict humidity control in its processing. Here we report the synthesis of stable a-FAPbI3, regardless of humidity and temperature, based on a vertically aligned lead iodide thin film grown from an ionic liquid, methylamine formate. The vertically grown structure has numerous nanometer-scale ion channels that facilitate the permeation of formamidinium iodide into the lead iodide thin films for fast and robust transformation to a-FAPbI3. A solar cell with a power-conversion efficiency of 24.1% was achieved. The unencapsulated cells retain 80 and 90% of their initial efficiencies for 500 hours at 85°C and continuous light stress, respectively.

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U2 - 10.1126/science.abf7652

DO - 10.1126/science.abf7652

M3 - 文章

C2 - 33766883

AN - SCOPUS:85103476084

SN - 0036-8075

VL - 371

SP - 1359

EP - 1364

JO - Science

JF - Science

IS - 6536

ER -

Stabilizing black-phase formamidinium perovskite formation at room temperature and high humidity

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