Soft and Stretchable Thienopyrroledione-Based Polymers via Direct Arylation

IF 5.3 2区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Advanced Electronic Materials Pub Date : 2025-02-04 DOI:10.1002/aelm.202400756

Angela Lin, Lorenzo Guio, Garrett LeCroy, Stanley Lo, Adnan Sharif, Yunfei Wang, Alberto Salleo, Xiaodan Gu, Christine K. Luscombe, Helen Tran

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Abstract

π-conjugated polymers (CPs) that are concurrently soft and stretchable are needed for deformable electronics. Molecular-level modification of indacenodithiophene (IDT) copolymers, a class of CPs that exhibit high hole mobilities (

μ $\mu $

_hole), is an approach that can help realize intrinsically soft and stretchable CPs. Numerous examples of design strategies to adjust the stretchability of CPs exist, but imparting softness is comparatively less studied. In this study, a systematic molecular weight (MW) series is constructed on a promising candidate for soft CPs, poly(indacenodithiophene-co-thienopyrroledione) (p(IDT_C16-TPD_C8)), by optimizing direct arylation polymerization conditions in hopes of improving stretchability and μ_hole without significantly impacting softness. We found p(IDT_C16-TPD_C8) at a degree of polymerization of 32 shows high stretchability (crack onset strain, CoS > 100%) without significantly impacting softness (elastic modulus, E = 32 MPa), which to the best of our knowledge outperforms previously reported stretchable and soft CPs. To further study how molecular-level modifications impact polymer properties, a MW series of a new extended donor unit polymer, poly(indacenodithienothiophene-co-thienopyrroledione) (p(IDTT_C16-TPD_C8)), was synthesized. The IDTT_C16 copolymers did not result in a greater average μ_hole when comparing between p(IDTT_C16-TPD_C8) and p(IDT_C16-TPD_C8) despite their higher crystallinity observed by GIWAXS. While these findings warrant further investigation, this study points toward unique charge transport properties of IDT-based polymers.

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可变形电子学需要同时具有柔软性和可拉伸性的π共轭聚合物（CPs）。茚并二硫噻吩（IDT）共聚物是一类表现出高空穴迁移率（μ$\mu $hole ）的氯化石蜡，对其进行分子级修饰有助于实现本质上柔软且可拉伸的氯化石蜡。调整氯化石蜡可拉伸性的设计策略已有大量实例，但赋予其柔软性的研究相对较少。在本研究中，我们通过优化直接芳基化聚合条件，在有希望成为软性氯化石蜡候选材料的聚(茚并二噻吩-噻吩并吡咯二酮)（p(IDTC16-TPDC8)）上构建了一个系统的分子量（MW）系列，希望在不显著影响柔软度的情况下改善拉伸性和μ孔。我们发现，聚合度为 32 的 p(IDTC16-TPDC8)具有很高的拉伸性（裂纹起始应变，CoS > 100%），而对柔软性（弹性模量，E = 32 兆帕）没有显著影响，据我们所知，这种拉伸性和柔软性优于之前报道的可拉伸氯化石蜡。为了进一步研究分子级改性如何影响聚合物特性，我们合成了一种新型扩展供体单元聚合物--聚（茚二噻吩-噻吩-吡咯烷酮）（p(IDTTC16-TPDC8)）的 MW 系列。尽管 GIWAXS 观察到 IDTTC16 共聚物的结晶度更高，但与 p(IDTTC16-TPDC8)和 p(IDTC16-TPDC8)相比，IDTTC16 共聚物并没有产生更大的平均 μ 孔。虽然这些发现值得进一步研究，但本研究表明基于 IDT 的聚合物具有独特的电荷传输特性。

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来源期刊

Advanced Electronic Materials NANOSCIENCE & NANOTECHNOLOGYMATERIALS SCIE-MATERIALS SCIENCE, MULTIDISCIPLINARY

CiteScore

11.00

自引率

3.20%

发文量

433

期刊介绍： Advanced Electronic Materials is an interdisciplinary forum for peer-reviewed, high-quality, high-impact research in the fields of materials science, physics, and engineering of electronic and magnetic materials. It includes research on physics and physical properties of electronic and magnetic materials, spintronics, electronics, device physics and engineering, micro- and nano-electromechanical systems, and organic electronics, in addition to fundamental research.