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有机光致变色材料最新研究进展 总被引:7,自引:0,他引:7
综述了近3年在有机光致变色领域的最新研究进展.重点介绍了在含有有机光致变色基团的二元分子中,光致变色基团作为开关对分子的光电等微观性质的控制. 相似文献
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介绍了常见的有机光致变色材料体系,光致变色材料在染料、民用品等方面的应用,开发有机光致变色材料作为记录介质的光盘,已成为高技术领域的一项重大课题。综述了光致变色材料在国际和国内的研究现状。光致变色材料是当前高科技领域重要的研究课题,光致变色材料在光信息存储的高科技领域、在防伪材料、装饰材料、具有广阔的应用价值和发展前景。 相似文献
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光致变色玻璃的透光率随光辐射强度的不同而变化,因此,光致变色玻璃可用于调控阳光进入建筑,是具有节能功效的智能玻璃。然而,目前光致变色玻璃在建筑中应用的研究较少,缺少科学评价其节能性能的方法。本文以制备的卤化银光致变色玻璃为研究对象,建立了光致变色玻璃节能性能简化模拟方法。利用DeST能耗软件研究了光致变色玻璃应用于不同建筑中的节能效果,计算和比较了两种变色特性的光致变色玻璃在不同建筑中的冷热负荷和照明能耗。研究结果显示:光致变色玻璃在建筑面积较大且窗墙比0.6以上的公共建筑中,全年节能率最高超过10%;在建筑面积和窗墙比较小的建筑中,其主要作用在于阻隔紫外线和防眩光。本文的方法和结果可为光致变色玻璃节能性能的研究提供参考,对光致变色玻璃的应用推广具有一定的促进作用。 相似文献
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针对传统光致变色纤维膜受酸碱等外界影响易导致变色效率低,以及稳定性不高的问题,提出在传统静电纺丝制备PVA/PEI纳米纤维膜的基础上,负载光致变色纳米微球,然后与戊二醛交联,得到性能稳定的光致变色纤维膜,并考察了PVA/PEI质量比、戊二醛交联以及光致变色纳米微球含量对光致变色纤维膜性能的影响。结果表明:在PVA/PEI的质量比为75∶25,光致变色微球的含量为10%时,经过戊二醛交联的光致变色纤维膜表面光滑,串珠连续且均匀;随着紫外光照的增加,纤维膜的颜色逐步加深,但当光致变色微球的含量大于10%时,颜色不再发生变化;将光致变色纤维膜浸水24h,纤维膜仍保持连续且均匀的多孔纤维结构。根据以上试验看出,纤维膜材料可用于环境领域中,以达到美化环境的目的。 相似文献
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《Ceramics International》2023,49(13):21645-21651
Sunlight-induced photochromic glass exhibits attractive application prospects in the field of architecture materials. In this work, a series of borosilicate aluminate photochromic glasses containing AgCl nanocrystals were prepared. The photochromic property and mechanisms were systematically investigated. The color of the glass turned from transparent to black (or dark grey) under the irradiation of 365 nm ultraviolet light (or sunlight). Placing in a dark environment, the color of photochromic glass gradually restores to its initial state. From the results of in situ TEM and XPS measurement, it is found that the photochromic and self-bleaching behavior of borosilicate aluminate glass originated from the formation and decomposition of silver nanoparticles. Utilizing the photochromic and self-bleaching properties of the glass, the transmittance of the glass could be reversibly modulated. The cycle measurement shows excellent repeatability, demonstrating the potential application of AgCl-contained borosilicate aluminate photochromic glass in the fields of smart building windows and curtain walls. 相似文献
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Hany M. Abd El-Lateef Mai. M. Khalaf Manal F. Abou Taleb Mohamed Gouda 《应用聚合物科学杂志》2024,141(19):e55353
Photochromism has been an efficient approach to improve authenticity of commercial products. In order to prepare an authentication nanofibrous film with mechanical reliability, it has been crucial to improve the engineering production route of the authentication materials. Herein, we electrospun photoluminescent nanofibrous film with a fiber diameter of 50–200 nm from the environmentally-friendly polylactic acid embedded with nanoparticles of rare-earth activated strontium aluminate (NRESA; 10–15 nm). The created nanocomposite film was colorless in daylight, and became an intense green in ultraviolet light. The strontium aluminate photochromic agent must be applied in the nanoparticle form to ensure film transparency by enhancing its dispersion without aggregation in the electrospun polylactic acid nanofiber bulk. An emission peak was observed at 518 nm after excitation of the pigment-polylactic acid nanofibers at 365 nm. Raising NRESA ratio increased the hydrophobic properties of the pigment-polylactic acid nanofibers without changing their visual or mechanical properties. The transparent films showed high photochromic reversibility without exhaustion under numerous exposure cycles of ultraviolet light and darkness. The nanofibrous mats were elastic and flexible. The current technique is an effective strategy for making a variety of anti-counterfeiting substances. 相似文献
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《Ceramics International》2021,47(22):31702-31712
Most photochromic ceramics can back up post-irradiation to achieve color state transition. Unfortunately, color recovery usually requires exposure of material to external physical fields (such as light and heat), which severely limits the application as a convenient energy building material such as smart windows. Here, we report a kind of sodium niobate translucent ceramics whose photochromic effect can be completely self-recoverable without any external physical field stimulation. Based on the analysis of time-response transmittance, up-conversion emission spectra and thermoluminescence spectra, the behavior of carrier migration and trap capture/release in the process of self-recovery photochromic reaction has been proposed. It is believed that the emergence of intermediate trap level is an important factor to produce this spontaneous behavior. Moreover, by controlling the amount of rare earth doping and designing two types of materials with different carrier behaviors, Sm/Er-codoped NaNbO3 ceramics are regarded as an appropriate candidate for tracing the time of light irradiation and intelligent regulation of smart building materials. This work can promote the fundamental understanding and practical applications of self-recoverable photochromic bulk materials. 相似文献
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紫精是良好的电子受体,受光激发后会发生电子迁移,但是其光还原态极不稳定,而杂化的方式可明显提高化合物的稳定性,因此紫精类杂化光致变色材料具有实际应用价值。文章简要综述了近几年的紫精类杂化光致变色化合物的研究进展。 相似文献
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Cool materials that adjust cooling efficiency according to sunlight intensity are needed because people have different needs for cooling at different times. Several colors of commercial microencapsulated photochromic powder were melt blended with ethylene-vinyl acetate copolymer in a two-roll mill at 90 °C to prepare the photochromic films of corresponding colors. Pink photochromic films [the organic photochromic compound is indolinospirooxazine (NISO)] were selected to continue the following variable experiment due to its best performance in the indoor cooling test. The pink photochromic films change color as well as transmittance according to the intensity of sunlight, thereby achieving an intelligent cooling effect. A maximum decrease around 10 °C was observed in natural environment when the addition amount of pink photochromic powder reaches 2.0 phr under strong sunlight and all films did not show cooling effect under weak sunlight. This material can be covered on buildings to regulate the indoor temperature. © 2019 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2020 , 137, 48887. 相似文献
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《Ceramics International》2023,49(12):19966-19973
Photon-mode ultracapacity storage media made of inorganic photochromic luminescent materials are highly anticipated, and widely explored in the development of new optical data storage (ODS) technologies. Despite some recent breakthroughs, the optical storage capacity of defect-rich photochromics is still limited to low luminescent readout abilities. Herein, oxygen vacancy rich and bismuth doped K0.5Na0.5NbO3:Eu3+ ceramics were designed, and synergistically boost the luminescence intensity, photochromic efficiency, and luminescent modulation properties, then effectively improving the luminescence readout abilities. The luminescence modulation ratio reaches up to 97.5% from 68.4% with the increase of oxygen vacancy concentrations due to hetero-valent bismuth doping, accompanied by high photochromic efficiency (35.7% from 21.9%) and excellent reproducibility. These results demonstrate that the synergistic engineering of oxygen vacancy and doping is a promising strategy for obtaining high-performance photochromic materials. 相似文献