Achieving ultrahigh electrochromic stability of triarylamine-based polymers by the design of five electroactive nitrogen centers

IF 6.7 2区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY Materials Today Chemistry Pub Date : 2024-08-16 DOI:10.1016/j.mtchem.2024.102236
Yaw-Terng Chern, Yu-Quan Lin, Jia-Rong Han, Yu-Cheng Chiu
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Abstract

A shortage of long-term stability of electrochromic materials has been hindering their practical application. A series of novel polyamides (PAs) (4) with five electroactive nitrogen atoms within triphenylamine (TPA)-containing structures was synthesized via phosphorylation polyamidation. Polyamide 4 exhibited highly integrated electrochromic performances, including multiple color changes, high contrast of optical transmittance change, and the highest electrochromic stability (only 11.2 and 9.6 % decay of its coloration efficiency (CE) at 450 nm after 50000 and 16000 switching cycles, respectively) compared to all other triarylamine-based polymers to date. This record-high electrochromic cycling is attributed to the enhanced stability of polaron, which was studied through the electron-donating or electron-withdrawing effect of substituents and the resonance effect of electron delocalization over the electroactive nitrogen centers. Importantly, our core design of five electroactive nitrogen centers with electron-donating methoxy groups is the key factor to increase stability of polaron in the resulting polymers 4. More electroactive nitrogen centers are able to create a weaker electronic coupling due to a charge of cation radical dispersed by resonance successfully in-between the different redox states, which is evidenced clearly by the observed longer wavelength absorption in the NIR region. Our research confirms that the key to determining polaron stability is the resonance by the electrons delocalized over all the redox centers, rather than the electronic coupling between the different redox centers. And the resonance leads to increasing electrochromic stability of the polymer.
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通过设计五个电活性氮中心实现三芳基胺聚合物的超高电致变色稳定性
电致变色材料缺乏长期稳定性一直阻碍着它们的实际应用。通过磷酸化聚酰胺化技术合成了一系列新型聚酰胺(PAs)(4),它们在含三苯胺(TPA)的结构中含有五个电活性氮原子。与迄今为止所有其他三芳基胺聚合物相比,聚酰胺 4 表现出高度综合的电致变色性能,包括多种颜色变化、高对比度的光学透射率变化以及最高的电致变色稳定性(在 450 纳米波长处,经过 50000 和 16000 次切换周期后,其着色效率(CE)的衰减率分别仅为 11.2% 和 9.6%)。这种创纪录的高电致变色循环归功于极子稳定性的增强,而极子稳定性的增强是通过取代基的电子捐献或电子抽取效应以及电活性氮中心的电子析出共振效应来研究的。重要的是,我们核心设计的五个带有电子捐赠甲氧基的电活性氮中心是提高聚合物 4 中极子稳定性的关键因素。由于阳离子自由基的电荷通过共振成功地分散在不同氧化还原态之间,因此更多的电活性氮中心能够产生更弱的电子耦合,在近红外区域观察到的更长波长吸收就清楚地证明了这一点。我们的研究证实,决定极子稳定性的关键在于电子在所有氧化还原中心的分散共振,而不是不同氧化还原中心之间的电子耦合。这种共振会提高聚合物的电致变色稳定性。
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来源期刊
CiteScore
8.90
自引率
6.80%
发文量
596
审稿时长
33 days
期刊介绍: Materials Today Chemistry is a multi-disciplinary journal dedicated to all facets of materials chemistry. This field represents one of the fastest-growing areas of science, involving the application of chemistry-based techniques to the study of materials. It encompasses materials synthesis and behavior, as well as the intricate relationships between material structure and properties at the atomic and molecular scale. Materials Today Chemistry serves as a high-impact platform for discussing research that propels the field forward through groundbreaking discoveries and innovative techniques.
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