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Inverted organic solar cells with non-clustering bathocuproine (BCP) cathode interlayers obtained by fullerene doping.


ABSTRACT: Bathocuproine (BCP) is a well-studied cathode interlayer in organic photovoltaic (OPV) devices, where it for standard device configurations has demonstrated improved electron extraction as well as exciton blocking properties, leading to high device efficiencies. For inverted devices, however, BCP interlayers has shown to lead to device failure, mainly due to the clustering of BCP molecules on indium tin oxide (ITO) surfaces, which is a significant problem during scale-up of the OPV devices. In this work, we introduce C70 doped BCP thin films as cathode interlayers in inverted OPV devices. We demonstrate that the interlayer forms smooth films on ITO surfaces, resulting from the introduction of C70 molecules into the BCP film, and that these films possess both improved electron extraction as well exciton blocking properties, as evidenced by electron-only devices and photoluminescence studies, respectively. Importantly, the improved cathode interlayers leads to well-functioning large area (100 mm2) devices, showing a device yield of 100%. This is in strong contrast to inverted devices based on pure BCP layers. These results are founded by the effective suppression of BCP clustering from C70, along with the electron transport and exciton blocking properties of the two materials, which thus presents a route for its integration as an interlayer material towards up-scaled inverted OPV devices.

SUBMITTER: Jafari F 

PROVIDER: S-EPMC6639309 | biostudies-literature | 2019 Jul

REPOSITORIES: biostudies-literature

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Inverted organic solar cells with non-clustering bathocuproine (BCP) cathode interlayers obtained by fullerene doping.

Jafari Fatemeh F   Patil Bhushan R BR   Mohtaram Fatemeh F   Cauduro André L Fernandes ALF   Rubahn Horst-Günter HG   Behjat Abbas A   Madsen Morten M  

Scientific reports 20190718 1


Bathocuproine (BCP) is a well-studied cathode interlayer in organic photovoltaic (OPV) devices, where it for standard device configurations has demonstrated improved electron extraction as well as exciton blocking properties, leading to high device efficiencies. For inverted devices, however, BCP interlayers has shown to lead to device failure, mainly due to the clustering of BCP molecules on indium tin oxide (ITO) surfaces, which is a significant problem during scale-up of the OPV devices. In t  ...[more]

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