Isoindigo‐Based Polymers with Small Effective Masses for High‐Mobility Ambipolar Field‐Effect Transistors

双极扩散 材料科学 聚合物 场效应晶体管 电子迁移率 晶体管 纳米技术 光电子学 电气工程 复合材料 电压 电子 物理 量子力学 工程类
作者
Jie Yang,Zhiyuan Zhao,Hua Geng,Changli Cheng,Jinyang Chen,Yunlong Sun,Longxian Shi,Yuanping Yi,Zhigang Shuai,Yunlong Guo,Shuai Wang,Yunqi Liu
出处
期刊:Advanced Materials [Wiley]
卷期号:29 (36) 被引量:137
标识
DOI:10.1002/adma.201702115
摘要

So far, most of the reported high-mobility conjugated polymers are p-type semiconductors. By contrast, the advances in high-mobility ambipolar polymers fall greatly behind those of p-type counterparts. Instead of unipolar p-type and n-type materials, ambipolar polymers, especially balanced ambipolar polymers, are potentially serviceable for easy-fabrication and low-cost complementary metal-oxide-semiconductor circuits. Therefore, it is a critical issue to develop high-mobility ambipolar polymers. Here, three isoindigo-based polymers, PIID-2FBT, P1FIID-2FBT, and P2FIID-2FBT are developed for high-performance ambipolar organic field-effect transistors. After the incorporation of fluorine atoms, the polymers exhibit enhanced coplanarity, lower energy levels, higher crystallinity, and thus increased µe . P2FIID-2FBT exhibits n-type dominant performance with a µe of 9.70 cm2 V-1 s-1 . Moreover, P1FIID-2FBT exhibits a highly balanced µh and µe of 6.41 and 6.76 cm2 V-1 s-1 , respectively, which are among the highest values for balanced ambipolar polymers. Moreover, a concept "effective mass" is introduced to further study the reasons for the high performance of the polymers. All the polymers have small effective masses, indicating good intramolecular charge transport. The results demonstrate that high-mobility ambipolar semiconductors can be obtained by designing polymers with fine-tuned energy levels, small effective masses, and high crystallinity.
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