通过晶界塑化在多晶分子半导体薄膜中构建本征柔韧性

Engineering Intrinsic Flexibility in Polycrystalline Molecular Semiconductor Films by Grain Boundary Plasticization.

作者信息

Zhao Dan, Chen Jianhua, Wang Binghao, Wang Gang, Chen Zhihua, Yu Junsheng, Guo Xugang, Huang Wei, Marks Tobin J, Facchetti Antonio

机构信息

Department of Chemistry and the Materials Research Center, Northwestern University, 2145 Sheridan Road, Evanston, Illinois 60208, United States.

State Key Laboratory of Electronic Thin Films and Integrated Devices, School of Optoelectronic Science and Engineering, University of Electronic Science and Technology of China (UESTC), Chengdu 610054, China.

出版信息

J Am Chem Soc. 2020 Mar 25;142(12):5487-5492. doi: 10.1021/jacs.9b12507. Epub 2020 Feb 17.

DOI:10.1021/jacs.9b12507

PMID:32053356

Abstract

Mechanically flexible films of the highly crystalline core-cyanated perylenediimide (PDIF-CN) molecular semiconductor are achieved via a novel grain boundary plasticization strategy in which a specially designed polymeric binder (PB) is used to connect crystallites at the grain boundaries. The new PB has a naphthalenediimide-dithiophene π-conjugated backbone end-functionalized with PDI units. In contrast to conventional polymer-small molecule blends where distinct phase separation occurs, this blend film with plasticized grain boundaries exhibits a morphology typical of homogeneous PDIF-CN films which is preserved upon bending at radii as small as 2 mm. Thin-film transistors fabricated with PB/PDIF-CN blends exhibit substantial electron mobilities even after repeated bending. This design represents a new approach to realizing flexible and textured semiconducting π-electron films with good mechanical and charge transport properties.

摘要

通过一种新型的晶界增塑策略，制备出了具有高度结晶性的核心氰化苝二酰亚胺（PDIF-CN）分子半导体的机械柔性薄膜。在该策略中，一种经过特殊设计的聚合物粘合剂（PB）被用于在晶界处连接微晶。新型PB具有萘二酰亚胺-二噻吩π共轭主链，其末端用PDI单元进行了官能化。与发生明显相分离的传统聚合物-小分子共混物不同，这种具有增塑晶界的共混薄膜呈现出典型的均匀PDIF-CN薄膜形态，即使在半径小至2毫米的弯曲情况下也能保持。用PB/PDIF-CN共混物制备的薄膜晶体管即使在反复弯曲后仍表现出可观的电子迁移率。这种设计代表了一种实现具有良好机械和电荷传输性能的柔性且有纹理的半导体π电子薄膜的新方法。

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通过晶界塑化在多晶分子半导体薄膜中构建本征柔韧性

Engineering Intrinsic Flexibility in Polycrystalline Molecular Semiconductor Films by Grain Boundary Plasticization.

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