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Robust singlet fission process in strong absorption π-expanded diketopyrrolopyrroles.

Long WangWenlin JiangShaoting GuoSenhao WangMengfan ZhangZuyuan LiuGuoliang WangYanqin MiaoLingpeng YanJiang-Yang ShaoYu-Wu ZhongZitong LiuDe-Qing ZhangHongbing FuJiannian Yao
Published in: Chemical science (2022)
Singlet fission (SF) has drawn tremendous attention as a multiexciton generation process that could mitigate the thermal loss and boost the efficiency of solar energy conversion. Although a SF-based solar cell with an EQE above 100% has already been fabricated successfully, the practical efficiency of the corresponding devices is plagued by the limited scope of SF materials. Therefore, it is of great importance to design and develop new SF-capable compounds aiming at practical device application. In the current contribution, via a π-expanded strategy, we presented a new series of robust SF chromophores based on polycyclic DPP derivatives, Ex-DPPs. Compared to conventional DPP molecules, Ex-DPPs feature strong absorption with a fivefold extinction coefficient, good molecular rigidity to effectively restrain non-radiative deactivation, and an expanded π-skeleton which endow them with well-suited intermolecular packing geometries for achieving efficient SF process. These results not only provide a new type of high-efficiency SF chromophore but also address some basic guidelines for the design of potential SF materials targeting practical light harvesting applications.
Keyphrases
  • high efficiency
  • machine learning
  • magnetic resonance imaging
  • single cell
  • energy transfer
  • working memory
  • deep learning
  • cancer therapy