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Overcoming the Thermal Instability of Efficient Polymer Solar Cells by Employing Novel Fullerene‐Based Acceptors
Author(s) -
Zhang Chaohong,
Mumyatov Alexander,
Langner Stefan,
Perea José Darío,
Kassar Thaer,
Min Jie,
Ke Lili,
Chen Haiwei,
Gerasimov Kirill L.,
Anokhin Denis V.,
Ivanov Dimitri A.,
Ameri Tayebeh,
Osvet Andreas,
Susarova Diana K.,
Unruh Tobias,
Li Ning,
Troshin Pavel,
Brabec Christoph J.
Publication year - 2017
Publication title -
advanced energy materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 10.08
H-Index - 220
eISSN - 1614-6840
pISSN - 1614-6832
DOI - 10.1002/aenm.201601204
Subject(s) - fullerene , materials science , organic solar cell , photovoltaic system , thermal stability , work (physics) , polymer , acceptor , nanotechnology , thermal , chemical engineering , mechanical engineering , organic chemistry , electrical engineering , thermodynamics , chemistry , physics , composite material , engineering , condensed matter physics
Solution‐processed organic solar cells with promising photovoltaic performance and extraordinary high thermal stability are achieved by employing novel fullerene‐based acceptors in combination with two state‐of‐the‐art polymer donors. The findings demonstrated in this work underline the necessity and importance of novel acceptor design rules for highly efficient organic solar cells with excellent device stability.