This review provides an up-to-date review about the small molecule interlayers (SMIs) in organic solar cells (OSCs). Compared to polymer interlayers, SMIs exhibit intrinsic advantages such as easy synthesis and purification, monodispersity, well-defined chemical structure, and high batch-to-batch reproducibility. Recently, various SMIs have been reported with landmark efficiencies of over 10% in both conventional and inverted OSCs, exhibiting promising potential in commercial application. In this review, the authors summarize the progress of SMIs from a device fabrication point of view, paying particular attention to the material categories, molecular design, preparation process, and applicable device structure. In addition, the working mechanisms of different SMIs are also discussed, including the structure–property relationships and the corresponding impact on device performance. Finally, a brief outlook is provided that includes opportunities and challenges in this emerging area.
%0 Journal Article
%1 li2018small
%A Li, Xiaodong
%A Zhang, Wenjun
%A Usman, Khurram
%A Fang, Junfeng
%D 2018
%I Wiley Online Library
%J Advanced Energy Materials
%K interlayer optimization organic smallmolecule
%R 10.1002/aenm.201702730
%T Small Molecule Interlayers in Organic Solar Cells
%U https://doi.org/10.1002/aenm.201702730
%X This review provides an up-to-date review about the small molecule interlayers (SMIs) in organic solar cells (OSCs). Compared to polymer interlayers, SMIs exhibit intrinsic advantages such as easy synthesis and purification, monodispersity, well-defined chemical structure, and high batch-to-batch reproducibility. Recently, various SMIs have been reported with landmark efficiencies of over 10% in both conventional and inverted OSCs, exhibiting promising potential in commercial application. In this review, the authors summarize the progress of SMIs from a device fabrication point of view, paying particular attention to the material categories, molecular design, preparation process, and applicable device structure. In addition, the working mechanisms of different SMIs are also discussed, including the structure–property relationships and the corresponding impact on device performance. Finally, a brief outlook is provided that includes opportunities and challenges in this emerging area.
@article{li2018small,
abstract = {This review provides an up-to-date review about the small molecule interlayers (SMIs) in organic solar cells (OSCs). Compared to polymer interlayers, SMIs exhibit intrinsic advantages such as easy synthesis and purification, monodispersity, well-defined chemical structure, and high batch-to-batch reproducibility. Recently, various SMIs have been reported with landmark efficiencies of over 10% in both conventional and inverted OSCs, exhibiting promising potential in commercial application. In this review, the authors summarize the progress of SMIs from a device fabrication point of view, paying particular attention to the material categories, molecular design, preparation process, and applicable device structure. In addition, the working mechanisms of different SMIs are also discussed, including the structure–property relationships and the corresponding impact on device performance. Finally, a brief outlook is provided that includes opportunities and challenges in this emerging area.},
added-at = {2018-07-03T16:30:12.000+0200},
author = {Li, Xiaodong and Zhang, Wenjun and Usman, Khurram and Fang, Junfeng},
biburl = {https://www.bibsonomy.org/bibtex/2b40115323af83f5b01dfdb30d1a952bd/bretschneider_m},
doi = {10.1002/aenm.201702730},
interhash = {2ea50325de4565ed2d9fe2094b80a057},
intrahash = {b40115323af83f5b01dfdb30d1a952bd},
issn = {1614-6840},
journal = {Advanced Energy Materials},
keywords = {interlayer optimization organic smallmolecule},
month = {1},
publisher = {Wiley Online Library},
timestamp = {2018-07-03T16:30:12.000+0200},
title = {Small Molecule Interlayers in Organic Solar Cells},
url = {https://doi.org/10.1002/aenm.201702730},
year = 2018
}