The Future of Flexible Organic Solar Cells

DOI：10.1002/aenm.202000765 期刊：Advanced Energy Materials 出版年份：2020 更新时间：2025-09-23 15:21:01

摘要： Extensive efforts have been devoted during the last decade to organic solar cell research that has led to remarkable progress and achieved power conversion efficiencies (PCEs) in excess of 10%. Among the existing flexible organic solar cells, ultrathin organic solar cells with a total thickness <10 μm have important advantages, including good mechanical bending stabilities and good conformability. These advantages have led to power generation solutions for wearable electronics. In this essay, the progress of flexible and ultrathin organic solar cells, and the future research directions pertaining to these cells are discussed based on the potential applications of textile-compatible solar cells. Both process engineering and development of the material of ultrathin substrate films have improved the PCE of ultrathin organic solar cells, which in turn have led to the small PCE difference between flexible organic solar cells with substrate thickness >10 μm and ultrathin organic solar cells with substrate thickness ≤10 μm. Key technologies for the further improvement of PCE of flexible/ultrathin organic solar cells are discussed. Strategies to improve the stability and some important aspects, which determine the mechanical robustness of flexible organic solar cells, are also presented and discussed.

关键词： organic solar cells flexibility stretchability power conversion efficiency

作者： Kenjiro Fukuda，Kilho Yu，Takao Someya

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研究概述实验方案设备清单

研究目的

To discuss the progress of flexible and ultrathin organic solar cells, and the future research directions pertaining to these cells based on the potential applications of textile-compatible solar cells.

研究成果

The essay concludes that considerable efforts have been devoted to organic solar cells during the last decade, leading to remarkable progress in their performances, including PCE, stability, and power output per unit weight. It highlights the shift in research focus towards the integration of these cells to supply power to wearable electronics and suggests that accelerating system-level integration research in the next decade will help meet the required specifications of appropriate target applications.

研究不足

The limitations include the trade-off between gas barrier properties and flexibility, the need for improved materials for better performance under bending and stretching, and the challenges in achieving high power conversion efficiencies comparable to rigid organic solar cells.

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设备名称型号厂家功能

PEN TOYOBO FILM SOLUTIONS LTD
Used as a substrate for flexible organic solar cells.
PET TOYOBO FILM SOLUTIONS LTD
Used as a substrate for flexible organic solar cells.

Colorless polyimide
Used as a substrate for flexible organic solar cells due to its low CTE and high Tg.
Parylene Parylene-C Specialty Coating Systems Inc
Used for substrate/encapsulation in organic solar cells.
ITO
Used as a transparent electrode in organic solar cells.
Graphene
Used as a transparent electrode in organic solar cells.
PEDOT:PSS
Used as a transparent electrode/hole transport layer in organic solar cells.
MoOx
Used as a hole transport layer in organic solar cells.
ZnO
Used as an electron transport layer in organic solar cells.
TiO2
Used as an electron transport layer in organic solar cells.
LiF
Used as an electron transport layer in organic solar cells.
Ag
Used as a top electrode in organic solar cells.
Al
Used as a top electrode in organic solar cells.
AlOx
Used for passivation in organic solar cells.
SiOx
Used for passivation in organic solar cells.
SiN
Used for passivation in organic solar cells.
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