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Exploiting Noncovalently Conformational Locking as a Design Strategy for High Performance Fused-Ring Electron Acceptor Used in Polymer Solar Cells
Yahui Liu ,
Zhe Zhang ,
Shiyu Feng ,
Miao Li ,
Liangliang Wu ,
Ran Hou ,
Xinjun Xu ,
Xuebo Chen ,
Zhishan Bo
February 24 2017
February 24 2017
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Abstract
We have developed a kind of novel fused-ring small molecular acceptor, whose planar
conformation can be locked by intramolecular noncovalent interaction. The formation
of planar supramolecular fused-ring structure by conformation locking can effectively
broaden its absorption spectrum, enhance the electron mobility, and reduce the nonradiative
energy loss. Polymer solar cells (PSCs) based on this acceptor afforded a power conversion
efficiency (PCE) of 9.6%. In contrast, PSCs based on similar acceptor, which cannot
form a flat conformation, only gave a PCE of 2.3%. Such design strategy, which can
make the synthesis of small molecular acceptor much easier, will be promising in developing
a new acceptor for high efficiency polymer solar cells.
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