Electrochemical synthesis and properties of multicolor electrochromic triphenylamine-based polymer films

IF 2.8 4区 工程技术 Q2 POLYMER SCIENCE
Xiuhong Chen, Panxu Tang, Hong Yu, Wenfeng Xu, Xiaojia Zhao
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引用次数: 0

Abstract

Four novel triphenylamine-based (TPA-based) conjugate polymer films (one homopolymer and three co-polymers) were electrochemically synthesized from N4,N4′-bis(4-((6-(1H-indol-1-yl)hexyl)oxy)phenyl)-N4,N4′-diphenyl-[1,1′-biphenyl]-4,4′-diamine (TPY) and 3,4-ethylenedioxythiophene (EDOT) as monomers. The polymer structure was tuned by adjusting the monomer proportions. The homopolymer contains electrochromic TPA and indole groups in its backbone, while an additional electrochromic EDOT groups are present in the co-polymers. The electrochemical, optical, and electrochromic properties of the polymers were characterized along with film morphologies. Each polymer is multicolored, with electrochromic performance that depends heavily on its structure. The introduction of EDOT into the backbone significantly improved polymer-film-forming properties. In addition, the co-polymers exhibited excellent spectroelectrochemical performance and are visible–near-infrared electrochromic materials. In particular, the spectrum of oxidized PTPY–EDOT-2 covers the entire visible region, while oxidized PTPY–EDOT-3, which contains the highest amount of EDOT, strongly absorbs in the near-infrared region (> 800 nm) while absorbing fully across the visible region. Consequently, PTPY–EDOT-3 is a potential candidate for display and camouflage applications owing to its excellent properties. Double-layer electrochromic devices (ECDs) were fabricated using polymer films and WO3 as active layers. The homo- and co-polymers exhibit particularly different electrochromic performance. The PTPY ECD performs best. It exhibited a maximum contrast of 36.7% at 720 nm in the absence of EDOT, with a coloration efficiency of 418 cm2/C recorded; moreover, it exhibited an obvious memory effect, with a memory time of 20 min recorded at 480 nm. Consequently, these polymers are potentially useful for optoelectronics applications.

Graphical abstract

Novel conjugate polymer films that contain triphenylamine, 3,4- ethylenedioxythiophene (EDOT) and indole groups were electrochemical polymerized. Introducing EDOT into the backbone could significantly improve polymer-film-forming properties. These films are multicolored. The electrochromic devices exhibited high coloration efficiency, high optical contrast and obvious memory effect

Abstract Image

Abstract Image

多色电致变色三苯胺基聚合物薄膜的电化学合成及其特性
四种新型三苯胺基(TPA基)共轭聚合物薄膜(一种均聚物和三种共聚物)由N4、N4′-双(4-((6-(1H-吲哚-1-基)己基)氧基)苯基)-N4,N4′-二苯基-[1,1′-联苯]-4,4′-二胺(TPY)和 3,4-亚乙二氧基噻吩(EDOT)为单体进行电化学合成。聚合物结构可通过调整单体比例来调整。均聚物的骨架中含有电致变色 TPA 和吲哚基团,而共聚物中则含有额外的电致变色 EDOT 基团。研究人员对聚合物的电化学、光学和电致变色特性以及薄膜形态进行了表征。每种聚合物都具有多种颜色,其电致变色性能在很大程度上取决于其结构。在骨架中引入 EDOT 能显著改善聚合物的成膜性能。此外,共聚物还表现出优异的光谱电化学性能,是一种可见光-近红外电致变色材料。其中,氧化 PTPY-EDOT-2 的光谱覆盖了整个可见光区域,而氧化 PTPY-EDOT-3 的 EDOT 含量最高,在可见光区域完全吸收的同时,在近红外区域(> 800 nm)有强烈吸收。因此,PTPY-EDOT-3 因其优异的性能而成为显示和伪装应用的潜在候选材料。以聚合物薄膜和 WO3 为活性层,制作了双层电致变色器件 (ECD)。均聚物和共聚物表现出了截然不同的电致变色性能。PTPY ECD 的性能最佳。在没有 EDOT 的情况下,它在 720 纳米波长处显示出 36.7% 的最大对比度,记录的着色效率为 418 cm2/C;此外,它还显示出明显的记忆效应,在 480 纳米波长处记录的记忆时间为 20 分钟。图解摘要电化学聚合了含有三苯胺、3,4-亚乙二氧基噻吩(EDOT)和吲哚基团的新型共轭聚合物薄膜。在骨架中引入 EDOT 可显著改善聚合物的成膜性能。这些薄膜具有多种颜色。这些电致变色器件具有高着色效率、高光学对比度和明显的记忆效应。
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来源期刊
Macromolecular Research
Macromolecular Research 工程技术-高分子科学
CiteScore
4.70
自引率
8.30%
发文量
100
审稿时长
1.3 months
期刊介绍: Original research on all aspects of polymer science, engineering and technology, including nanotechnology Presents original research articles on all aspects of polymer science, engineering and technology Coverage extends to such topics as nanotechnology, biotechnology and information technology The English-language journal of the Polymer Society of Korea Macromolecular Research is a scientific journal published monthly by the Polymer Society of Korea. Macromolecular Research publishes original researches on all aspects of polymer science, engineering, and technology as well as new emerging technologies using polymeric materials including nanotechnology, biotechnology, and information technology in forms of Articles, Communications, Notes, Reviews, and Feature articles.
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