Author
Listed:
- He Yan
(Polyera Corporation, 8045 Lamon Avenue, Skokie, Illinois 60077, USA)
- Zhihua Chen
(Polyera Corporation, 8045 Lamon Avenue, Skokie, Illinois 60077, USA)
- Yan Zheng
(Polyera Corporation, 8045 Lamon Avenue, Skokie, Illinois 60077, USA)
- Christopher Newman
(Polyera Corporation, 8045 Lamon Avenue, Skokie, Illinois 60077, USA)
- Jordan R. Quinn
(Polyera Corporation, 8045 Lamon Avenue, Skokie, Illinois 60077, USA)
- Florian Dötz
(BASF Global Research Center Singapore, Science Park Road 61, Singapore 112575)
- Marcel Kastler
(BASF SE, GKS/E-B001, 67056 Ludwigshafen, Germany)
- Antonio Facchetti
(Polyera Corporation, 8045 Lamon Avenue, Skokie, Illinois 60077, USA)
Abstract
Printed electronics is a revolutionary technology aimed at unconventional electronic device manufacture on plastic foils, and will probably rely on polymeric semiconductors for organic thin-film transistor (OTFT) fabrication. In addition to having excellent charge-transport characteristics in ambient conditions, such materials must meet other key requirements, such as chemical stability, large solubility in common solvents, and inexpensive solution and/or low-temperature processing. Furthermore, compatibility of both p-channel (hole-transporting) and n-channel (electron-transporting) semiconductors with a single combination of gate dielectric and contact materials is highly desirable to enable powerful complementary circuit technologies, where p- and n-channel OTFTs operate in concert. Polymeric complementary circuits operating in ambient conditions are currently difficult to realize: although excellent p-channel polymers are widely available, the achievement of high-performance n-channel polymers is more challenging. Here we report a highly soluble (∼60 g l-1) and printable n-channel polymer exhibiting unprecedented OTFT characteristics (electron mobilities up to ∼0.45–0.85 cm2 V-1 s-1) under ambient conditions in combination with Au contacts and various polymeric dielectrics. Several top-gate OTFTs on plastic substrates were fabricated with the semiconductor-dielectric layers deposited by spin-coating as well as by gravure, flexographic and inkjet printing, demonstrating great processing versatility. Finally, all-printed polymeric complementary inverters (with gain 25–65) have been demonstrated.
Suggested Citation
He Yan & Zhihua Chen & Yan Zheng & Christopher Newman & Jordan R. Quinn & Florian Dötz & Marcel Kastler & Antonio Facchetti, 2009.
"A high-mobility electron-transporting polymer for printed transistors,"
Nature, Nature, vol. 457(7230), pages 679-686, February.
Handle:
RePEc:nat:nature:v:457:y:2009:i:7230:d:10.1038_nature07727
DOI: 10.1038/nature07727
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Cited by:
- Yinan Huang & Kunjie Wu & Yajing Sun & Yongxu Hu & Zhongwu Wang & Liqian Yuan & Shuguang Wang & Deyang Ji & Xiaotao Zhang & Huanli Dong & Zhongmiao Gong & Zhiyun Li & Xuefei Weng & Rong Huang & Yi Cui, 2024.
"Unraveling the crucial role of trace oxygen in organic semiconductors,"
Nature Communications, Nature, vol. 15(1), pages 1-9, December.
- Miao Xiong & Xin-Yu Deng & Shuang-Yan Tian & Kai-Kai Liu & Yu-Hui Fang & Juan-Rong Wang & Yunfei Wang & Guangchao Liu & Jupeng Chen & Diego Rosas Villalva & Derya Baran & Xiaodan Gu & Ting Lei, 2024.
"Counterion docking: a general approach to reducing energetic disorder in doped polymeric semiconductors,"
Nature Communications, Nature, vol. 15(1), pages 1-10, December.
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