平面或非平面是个问题。电致变色聚酰胺单体含二苯并芴与三苯胺熔合，用于节能高对比度智能窗

IF 5.8 2区化学 Q1 POLYMER SCIENCE

European Polymer Journal Pub Date : 2025-06-12 DOI:10.1016/j.eurpolymj.2025.114074

Minghao Zhai , Chunli Ma , Jingtao An , Wanan Cai , Tingting Zhou , Haijun Niu , Wen Wang

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引用次数: 0

摘要

根据节能环保的要求，电致变色智能窗近年来在建筑中得到了广泛的应用。然而，在解决短寿命和不稳定性方面存在挑战。在EC智能窗（ESW）运行过程中，随着电解质离子与EC膜的插入和分离，膜会膨胀和收缩，导致膜的崩溃。具有平面部分的分子与一些扭曲修饰一起起作用。因此，设计了与三苯胺（TPA）单体融合的二苯基芴，并将该单体与四种二羧酸通过缩聚合成了一系列聚酰胺（PAs），这些聚酰胺在极性溶剂中具有优异的溶解度，易于成膜。其溶解度主要是由于芴基C9位置的两个苯环，以及两个体积较大的TPA，为反离子的渗透提供了更多的途径。核心芴部分在主链之间提供适当的聚集，导致电子从聚合物链快速跳到导电衬底。该聚合物薄膜（命名为DPFTPA-OA）在520 nm处透光率变化79%，具有快速稳定的EC行为（着色/漂白时间为2.2 s/1.3 s，稳定周期为1200次）。基于DPFTPA-OA优越的电压控制太阳能调制能力，EnergyPlus仿真表明，在大多数中国城市中，通过优化室内外环境之间的辐射热交换，装配DPFTPA-OA的esw与商用标准玻璃相比具有更高的节能效果，因此具有相当大的能源管理潜力。DPFTPA-CA对2,4,6-三硝基苯酚（TNP）表现出PL敏感性，Ksv = 2.2 × 105 M-1, LOD = 43 nM，在环境危害试验中具有很大的应用潜力。

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Planar or not planar is A problem. Electrochromic polyamides with The monomer containing dibenzofluorene fused to triphenylamine for smart windows with high contrast ratio aimed for energy conservation

According to requirement of energy conservation and environmental protection, electrochromic (EC) smart windows have been widespread implemented in building recently. However, there is challenge to tackle short life time and instability. During the EC smart windows (ESW) operation, as the electrolyte ions insert and detach from the EC film, the film will swell and shrink resulting in the collapse of the film. The molecules having planar part together with some twisted modification will take effect. Therefore, diphenylfluorene fused with triphenylamine (TPA) monomer is designed, followed by a series of polyamides (PAs) having been synthesized by polycondensation from the monomer and four dicarboxylic acids which exhibit superior solubility in polar solvents facile to form films. The solubility is mainly contributed to two benzene rings at the C9 position of the fluorene group, together with the two bulky TPA, which provide more pathways for the penetration of counter ions. The core fluorene moiety provides appropriate aggregate between mainchain resulting in the fast electrons hopping from polymer chain to conductive substrate. The polymer film (named DPFTPA-OA) exhibits 79 % transmittance change at 520 nm, as well as fast and stable EC behaviors (coloring/bleaching times of 2.2 s/1.3 s, and 1200 cycles of stabilization). Based on the superior voltage-controlled solar modulation capability of DPFTPA-OA, EnergyPlus simulation demonstrates that ESWs assembled with DPFTPA-OA by optimizing radiant heat exchange between indoor and outdoor environments in most China cities, have higher energy savings compared to commercial standard glass, so it exhibits considerable potential for energy management. In addition, DPFTPA-CA shows PL sensitive to 2,4,6-trinitrophenol (TNP) with K_sv = 2.2 × 10⁵ M^-1 and LOD = 43 nM, exhibiting great potential in environmental hazard test.

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来源期刊

European Polymer Journal 化学-高分子科学

CiteScore

9.90

自引率

10.00%

发文量

691

审稿时长

23 days

期刊介绍： European Polymer Journal is dedicated to publishing work on fundamental and applied polymer chemistry and macromolecular materials. The journal covers all aspects of polymer synthesis, including polymerization mechanisms and chemical functional transformations, with a focus on novel polymers and the relationships between molecular structure and polymer properties. In addition, we welcome submissions on bio-based or renewable polymers, stimuli-responsive systems and polymer bio-hybrids. European Polymer Journal also publishes research on the biomedical application of polymers, including drug delivery and regenerative medicine. The main scope is covered but not limited to the following core research areas: Polymer synthesis and functionalization • Novel synthetic routes for polymerization, functional modification, controlled/living polymerization and precision polymers. Stimuli-responsive polymers • Including shape memory and self-healing polymers. Supramolecular polymers and self-assembly • Molecular recognition and higher order polymer structures. Renewable and sustainable polymers • Bio-based, biodegradable and anti-microbial polymers and polymeric bio-nanocomposites. Polymers at interfaces and surfaces • Chemistry and engineering of surfaces with biological relevance, including patterning, antifouling polymers and polymers for membrane applications. Biomedical applications and nanomedicine • Polymers for regenerative medicine, drug delivery molecular release and gene therapy The scope of European Polymer Journal no longer includes Polymer Physics.