Nature Communications (Jul 2023)

All-polymer organic solar cells with nano-to-micron hierarchical morphology and large light receiving angle

  • Rui Zeng,
  • Lei Zhu,
  • Ming Zhang,
  • Wenkai Zhong,
  • Guanqing Zhou,
  • Jiaxing Zhuang,
  • Tianyu Hao,
  • Zichun Zhou,
  • Libo Zhou,
  • Nicolai Hartmann,
  • Xiaonan Xue,
  • Hao Jing,
  • Fei Han,
  • Yiming Bai,
  • Hongbo Wu,
  • Zheng Tang,
  • Yecheng Zou,
  • Haiming Zhu,
  • Chun-Chao Chen,
  • Yongming Zhang,
  • Feng Liu

DOI
https://doi.org/10.1038/s41467-023-39832-4
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 10

Abstract

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Abstract Distributed photovoltaics in living environment harvest the sunlight in different incident angles throughout the day. The development of planer solar cells with large light-receiving angle can reduce the requirements in installation form factor and is therefore urgently required. Here, thin film organic photovoltaics with nano-sized phase separation integrated in micro-sized surface topology is demonstrated as an ideal solution to proposed applications. All-polymer solar cells, by means of a newly developed sequential processing, show large magnitude hierarchical morphology with facilitated exciton-to-carrier conversion. The nano fibrilar donor-acceptor network and micron-scale optical field trapping structure in combination contributes to an efficiency of 19.06% (certified 18.59%), which is the highest value to date for all-polymer solar cells. Furthermore, the micron-sized surface topology also contributes to a large light-receiving angle. A 30% improvement of power gain is achieved for the hierarchical morphology comparing to the flat-morphology devices. These inspiring results show that all-polymer solar cell with hierarchical features are particularly suitable for the commercial applications of distributed photovoltaics due to its low installation requirement.