A Molecular Design Principle of Lyotropic Liquid-crystalline Conjugated Polymers with Directed Alignment Capability for Plastic Electronics

Overview

Journal Nat Mater

Date 2013 Mar 26

PMID 23524374

Citations 32

Authors

Bong-Gi Kim

Eun Jeong Jeong

Jong Won Chung

Sungbaek Seo

Bonwon Koo

Jinsang Kim

Affiliations

Soon will be listed here.

Abstract

Conjugated polymers with a one-dimensional p-orbital overlap exhibit optoelectronic anisotropy. Their unique anisotropic properties can be fully realized in device applications only when the conjugated chains are aligned. Here, we report a molecular design principle of conjugated polymers to achieve concentration-regulated chain planarization, self-assembly, liquid-crystal-like good mobility and non-interdigitated side chains. As a consequence of these intra- and intermolecular attributes, chain alignment along an applied flow field occurs. This liquid-crystalline conjugated polymer was realized by incorporating intramolecular sulphur-fluorine interactions and bulky side chains linked to a tetrahedral carbon having a large form factor. By optimizing the polymer concentration and the flow field, we could achieve a high dichroic ratio of 16.67 in emission from conducting conjugated polymer films. Two-dimensional grazing-incidence X-ray diffraction was performed to analyse a well-defined conjugated polymer alignment. Thin-film transistors built on highly aligned conjugated polymer films showed more than three orders of magnitude faster carrier mobility along the conjugated polymer alignment direction than the perpendicular direction.

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