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Optically transparent semiconducting polymer nanonetwork for flexible and transparent electronics.


ABSTRACT: Simultaneously achieving high optical transparency and excellent charge mobility in semiconducting polymers has presented a challenge for the application of these materials in future "flexible" and "transparent" electronics (FTEs). Here, by blending only a small amount (?15 wt %) of a diketopyrrolopyrrole-based semiconducting polymer (DPP2T) into an inert polystyrene (PS) matrix, we introduce a polymer blend system that demonstrates both high field-effect transistor (FET) mobility and excellent optical transparency that approaches 100%. We discover that in a PS matrix, DPP2T forms a web-like, continuously connected nanonetwork that spreads throughout the thin film and provides highly efficient 2D charge pathways through extended intrachain conjugation. The remarkable physical properties achieved using our approach enable us to develop prototype high-performance FTE devices, including colorless all-polymer FET arrays and fully transparent FET-integrated polymer light-emitting diodes.

SUBMITTER: Yu K 

PROVIDER: S-EPMC5167166 | biostudies-literature | 2016 Dec

REPOSITORIES: biostudies-literature

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Optically transparent semiconducting polymer nanonetwork for flexible and transparent electronics.

Yu Kilho K   Park Byoungwook B   Kim Geunjin G   Kim Chang-Hyun CH   Park Sungjun S   Kim Jehan J   Jung Suhyun S   Jeong Soyeong S   Kwon Sooncheol S   Kang Hongkyu H   Kim Junghwan J   Yoon Myung-Han MH   Lee Kwanghee K  

Proceedings of the National Academy of Sciences of the United States of America 20161122 50


Simultaneously achieving high optical transparency and excellent charge mobility in semiconducting polymers has presented a challenge for the application of these materials in future "flexible" and "transparent" electronics (FTEs). Here, by blending only a small amount (∼15 wt %) of a diketopyrrolopyrrole-based semiconducting polymer (DPP2T) into an inert polystyrene (PS) matrix, we introduce a polymer blend system that demonstrates both high field-effect transistor (FET) mobility and excellent  ...[more]

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