Real-time correlation of crystallization and segmental order in conjugated polymers†

IF 12.2 2区 材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY Materials Horizons Pub Date : 2023-10-04 DOI:10.1039/D3MH00956D
Shaochuan Luo, Yukun Li, Nan Li, Zhiqiang Cao, Song Zhang, Michael U. Ocheje, Xiaodan Gu, Simon Rondeau-Gagné, Gi Xue, Sihong Wang, Dongshan Zhou and Jie Xu
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Abstract

Modulating the segmental order in the morphology of conjugated polymers is widely recognized as a crucial factor for achieving optimal electronic properties and mechanical deformability. However, it is worth noting that the segmental order is typically associated with the crystallization process, which can result in rigid and brittle long-range ordered crystalline domains. To precisely control the morphology, a comprehensive understanding of how highly anisotropic conjugated polymers form segmentally ordered structures with ongoing crystallization is essential, yet currently elusive. To fill this knowledge gap, we developed a novel approach with a combination of stage-type fast scanning calorimetry and micro-Raman spectroscopy to capture the series of specimens with a continuum in the polymer percent crystallinity and detect the segmental order in real-time. Through the investigation of conjugated polymers with different backbones and side-chain structures, we observed a generally existing phenomenon that the degree of segmental order saturates before the maximum crystallinity is achieved. This disparity allows the conjugated polymers to achieve good charge carrier mobility while retaining good segmental dynamic mobility through the tailored treatment. Moreover, the crystallization temperature to obtain optimal segmental order can be predicted based on Tg and Tm of conjugated polymers. This in-depth characterization study provides fundamental insights into the evolution of segmental order during crystallization, which can aid in designing and controlling the optoelectronic and mechanical properties of conjugated polymers.

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共轭聚合物结晶和链段有序的实时相关性。
调节共轭聚合物形态中的节段顺序被广泛认为是实现最佳电子性能和机械变形性的关键因素。然而,值得注意的是,节段有序通常与结晶过程有关,结晶过程可能导致刚性和脆性的长程有序晶畴。为了精确控制形态,全面了解高度各向异性的共轭聚合物如何在不断结晶的情况下形成分段有序结构是至关重要的,但目前尚不清楚。为了填补这一知识空白,我们开发了一种结合阶段型快速扫描量热法和微拉曼光谱的新方法,以捕获聚合物结晶度百分比连续的一系列样品,并实时检测节段顺序。通过对具有不同主链和侧链结构的共轭聚合物的研究,我们观察到一种普遍存在的现象,即在达到最大结晶度之前,链段有序度饱和。这种差异允许共轭聚合物实现良好的电荷载流子迁移率,同时通过定制处理保持良好的节段动态迁移率。此外,可以基于共轭聚合物的Tg和Tm来预测获得最佳链段序的结晶温度。这项深入的表征研究为结晶过程中链段有序的演变提供了基本的见解,有助于设计和控制共轭聚合物的光电和机械性能。
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来源期刊
Materials Horizons
Materials Horizons CHEMISTRY, MULTIDISCIPLINARY-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
18.90
自引率
2.30%
发文量
306
审稿时长
1.3 months
期刊介绍: Materials Horizons is a leading journal in materials science that focuses on publishing exceptionally high-quality and innovative research. The journal prioritizes original research that introduces new concepts or ways of thinking, rather than solely reporting technological advancements. However, groundbreaking articles featuring record-breaking material performance may also be published. To be considered for publication, the work must be of significant interest to our community-spanning readership. Starting from 2021, all articles published in Materials Horizons will be indexed in MEDLINE©. The journal publishes various types of articles, including Communications, Reviews, Opinion pieces, Focus articles, and Comments. It serves as a core journal for researchers from academia, government, and industry across all areas of materials research. Materials Horizons is a Transformative Journal and compliant with Plan S. It has an impact factor of 13.3 and is indexed in MEDLINE.
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