The use of phosphorescence micromaterials for commercial textile products

B. Mahltig, Clara Heil, Sarah Kaub, Jaydip Nareshbhai Kapadiya
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Abstract

Fluorescent textile products are manifold used. Compared to fluorescent textiles, phosphorescent textile products exhibit an afterglow effect even after the illumination is stopped. Phosphorescent textiles are less present as commercial products on the market. With this background the aim of the actual presentation is to investigate the properties of commercially available phosphorescent textile materials. Investigations are performed by illumination under different light arrangement. Microscopy is performed by scanning electronic microscopy (SEM) and advanced light microscopy using UV light. Light emission of the samples is recorded by fluorescence spectroscopy. The chemical composition is determined by using electron dispersive spectroscopy (EDS). Depending on the type of sample, an afterglow effect can be determined up to 5 to 30 minutes after stopping the illumination with UV light. By SEM and EDS methods it is observed that the phosphorescent effects are realized by application of phosphorescent pigments, which can be best described as phosphorescent micromaterials. Depending on the product category, two different types of phosphorescent materials are used – doped strontium aluminates (SrAl2O4) and zinc sulfide (ZnS). Products based on doped strontium aluminates exhibit longer afterglow effects compared to products with ZnS pigments. However, the use of doped strontium aluminate is quite surprising for a commercial textile product, because of cost reasons. Finally, it can be stated that phosphorescent micromaterials are established materials for realization of functional textile products. These micromaterials can be found in every day products and are examples for innovative particle technology used in commercial consumer products.
将磷光微材料用于商业纺织品
荧光纺织品的用途是多方面的。与荧光纺织品相比,磷光纺织品在停止照明后仍会产生余辉效应。磷光纺织品在市场上较少作为商业产品出现。在此背景下,本报告旨在研究市面上磷光纺织材料的特性。研究是在不同的光照条件下进行的。显微镜是通过扫描电子显微镜(SEM)和使用紫外光的高级光学显微镜进行的。利用荧光光谱记录样品的发光情况。化学成分通过电子色散光谱(EDS)测定。根据样品类型的不同,在停止紫外光照射 5 至 30 分钟后,可以确定余辉效应。通过 SEM 和 EDS 方法可以观察到,磷光效果是通过磷光颜料实现的,而磷光颜料可以被最好地描述为磷光微材料。根据产品类别的不同,使用了两种不同类型的磷光材料--掺杂锶铝酸盐(SrAl2O4)和硫化锌(ZnS)。与使用硫化锌颜料的产品相比,使用掺杂锶铝酸盐的产品具有更长的余辉效应。然而,由于成本原因,掺杂铝酸锶在商业纺织品中的使用令人惊讶。最后,可以说磷光微材料是实现功能性纺织品的成熟材料。这些微材料在日常用品中随处可见,是商业消费品中使用的创新微粒技术的典范。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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