Open Access
Open access
Springer Nature
Nature Communications
volume 5 issue 1 publication number 3406

8.4% efficient fullerene-free organic solar cells exploiting long-range exciton energy transfer

Publication typeJournal Article
Publication date2014-03-07
Springer Nature
scimago Q1
wos Q1
SJR4.761
CiteScore23.4
Impact factor15.7
ISSN20411723
DOI:  10.1038/ncomms4406
PubMed ID:  24603622
General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy
Abstract
In order to increase the power conversion efficiency of organic solar cells, their absorption spectrum should be broadened while maintaining efficient exciton harvesting. This requires the use of multiple complementary absorbers, usually incorporated in tandem cells or in cascaded exciton-dissociating heterojunctions. Here we present a simple three-layer architecture comprising two non-fullerene acceptors and a donor, in which an energy-relay cascade enables an efficient two-step exciton dissociation process. Excitons generated in the remote wide-bandgap acceptor are transferred by long-range Förster energy transfer to the smaller-bandgap acceptor, and subsequently dissociate at the donor interface. The photocurrent originates from all three complementary absorbing materials, resulting in a quantum efficiency above 75% between 400 and 720 nm. With an open-circuit voltage close to 1 V, this leads to a remarkable power conversion efficiency of 8.4%. These results confirm that multilayer cascade structures are a promising alternative to conventional donor-fullerene organic solar cells. Organic solar cells usually require the incorporation of costly fullerene acceptor layers. Cnops et al.report a multilayer organic solar cell that extracts photogenerated excitons by a two-step mechanism and achieves unprecedented conversion efficiencies of up to 8.4% without the use of fullerenes.
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GOST Copy
Cnops K. et al. 8.4% efficient fullerene-free organic solar cells exploiting long-range exciton energy transfer // Nature Communications. 2014. Vol. 5. No. 1. 3406
GOST all authors (up to 50) Copy
Cnops K., Rand B. P., Cheyns D., Verreet B., Empl M. A., Heremans P. 8.4% efficient fullerene-free organic solar cells exploiting long-range exciton energy transfer // Nature Communications. 2014. Vol. 5. No. 1. 3406
RIS |
Cite this
RIS Copy
TY - JOUR
DO - 10.1038/ncomms4406
UR - https://doi.org/10.1038/ncomms4406
TI - 8.4% efficient fullerene-free organic solar cells exploiting long-range exciton energy transfer
T2 - Nature Communications
AU - Cnops, Kjell
AU - Rand, Barry P.
AU - Cheyns, David
AU - Verreet, Bregt
AU - Empl, Max A
AU - Heremans, Paul
PY - 2014
DA - 2014/03/07
PB - Springer Nature
IS - 1
VL - 5
PMID - 24603622
SN - 2041-1723
ER -
BibTex
Cite this
BibTex (up to 50 authors) Copy
@article{2014_Cnops,
author = {Kjell Cnops and Barry P. Rand and David Cheyns and Bregt Verreet and Max A Empl and Paul Heremans},
title = {8.4% efficient fullerene-free organic solar cells exploiting long-range exciton energy transfer},
journal = {Nature Communications},
year = {2014},
volume = {5},
publisher = {Springer Nature},
month = {mar},
url = {https://doi.org/10.1038/ncomms4406},
number = {1},
pages = {3406},
doi = {10.1038/ncomms4406}
}