Efficient as-cast thick film small-molecule organic solar cell with less fluorination on the donor

Kai Wang; Xin Song; Xiao Guo; Yunhao Wang; Xue Lai; Fei Meng; Mengzhen Du; Dongyu Fan; Ren Zhang; Gongqiang Li; Aung Ko Ko Kyaw; Jianpu Wang; Wei Huang; Derya Baran

doi:10.1039/c9qm00605b

Efficient as-cast thick film small-molecule organic solar cell with less fluorination on the donor

Kai Wang, Xin Song, Xiao Guo, Yunhao Wang, Xue Lai, Fei Meng, Mengzhen Du, Dongyu Fan, Ren Zhang, Gongqiang Li, Aung Ko Ko Kyaw, Jianpu Wang, Wei Huang, Derya Baran

柔性电子研究院

科研成果: 期刊稿件 › 文章 › 同行评审

9 引用（Scopus）

摘要

Herein, two donor materials based on fluorine substituted isatin units (DI3T-1F, DI3T-2F) were designed and synthesized for thick-film small molecule solar cells. The devices based on DI3T-1F demonstrate balanced charge transport and less trap-assisted recombination, leading to higher power conversion efficiency (PCE) of 8.33% with a thickness ca. 150 nm compared to DI3F-2F (PCE of 7.32% with thick film at ca. 160 nm) without additives, solvent or thermal annealing treatments. More interestingly, the device based on DI3T-1F small molecules demonstrates good tolerance to active layer thickness from 150 to 300 nm with device performance over 5%. Our results indicate that less fluorine atoms on the donor units can optimize the charge transport, and phase-segregated morphology in small molecule solar cells without the need for post-treatment.

源语言	英语
页（从-至）	206-212
页数	7
期刊	Materials Chemistry Frontiers
卷	4
期	1
DOI	https://doi.org/10.1039/c9qm00605b
出版状态	已出版 - 1月 2020

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10.1039/c9qm00605b

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title = "Efficient as-cast thick film small-molecule organic solar cell with less fluorination on the donor",

abstract = "Herein, two donor materials based on fluorine substituted isatin units (DI3T-1F, DI3T-2F) were designed and synthesized for thick-film small molecule solar cells. The devices based on DI3T-1F demonstrate balanced charge transport and less trap-assisted recombination, leading to higher power conversion efficiency (PCE) of 8.33% with a thickness ca. 150 nm compared to DI3F-2F (PCE of 7.32% with thick film at ca. 160 nm) without additives, solvent or thermal annealing treatments. More interestingly, the device based on DI3T-1F small molecules demonstrates good tolerance to active layer thickness from 150 to 300 nm with device performance over 5%. Our results indicate that less fluorine atoms on the donor units can optimize the charge transport, and phase-segregated morphology in small molecule solar cells without the need for post-treatment.",

author = "Kai Wang and Xin Song and Xiao Guo and Yunhao Wang and Xue Lai and Fei Meng and Mengzhen Du and Dongyu Fan and Ren Zhang and Gongqiang Li and Kyaw, {Aung Ko Ko} and Jianpu Wang and Wei Huang and Derya Baran",

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doi = "10.1039/c9qm00605b",

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T1 - Efficient as-cast thick film small-molecule organic solar cell with less fluorination on the donor

AU - Wang, Kai

AU - Song, Xin

AU - Guo, Xiao

AU - Wang, Yunhao

AU - Lai, Xue

AU - Meng, Fei

AU - Du, Mengzhen

AU - Fan, Dongyu

AU - Zhang, Ren

AU - Li, Gongqiang

AU - Kyaw, Aung Ko Ko

AU - Wang, Jianpu

AU - Huang, Wei

AU - Baran, Derya

PY - 2020/1

Y1 - 2020/1

N2 - Herein, two donor materials based on fluorine substituted isatin units (DI3T-1F, DI3T-2F) were designed and synthesized for thick-film small molecule solar cells. The devices based on DI3T-1F demonstrate balanced charge transport and less trap-assisted recombination, leading to higher power conversion efficiency (PCE) of 8.33% with a thickness ca. 150 nm compared to DI3F-2F (PCE of 7.32% with thick film at ca. 160 nm) without additives, solvent or thermal annealing treatments. More interestingly, the device based on DI3T-1F small molecules demonstrates good tolerance to active layer thickness from 150 to 300 nm with device performance over 5%. Our results indicate that less fluorine atoms on the donor units can optimize the charge transport, and phase-segregated morphology in small molecule solar cells without the need for post-treatment.

AB - Herein, two donor materials based on fluorine substituted isatin units (DI3T-1F, DI3T-2F) were designed and synthesized for thick-film small molecule solar cells. The devices based on DI3T-1F demonstrate balanced charge transport and less trap-assisted recombination, leading to higher power conversion efficiency (PCE) of 8.33% with a thickness ca. 150 nm compared to DI3F-2F (PCE of 7.32% with thick film at ca. 160 nm) without additives, solvent or thermal annealing treatments. More interestingly, the device based on DI3T-1F small molecules demonstrates good tolerance to active layer thickness from 150 to 300 nm with device performance over 5%. Our results indicate that less fluorine atoms on the donor units can optimize the charge transport, and phase-segregated morphology in small molecule solar cells without the need for post-treatment.

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SN - 2052-1537

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EP - 212

JO - Materials Chemistry Frontiers

JF - Materials Chemistry Frontiers

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Efficient as-cast thick film small-molecule organic solar cell with less fluorination on the donor

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