新型镧系发光着色剂在纺织和造纸材料中的应用研究

IF 2 4区 工程技术 Q3 CHEMISTRY, APPLIED
D. M. Lewis, P. J. Broadbent, M. L. A. Rigout, C. M. Carr, C. C. Seaton, T. Swift
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引用次数: 0

摘要

本文介绍了在短波紫外光(UV)活化(通常为254 nm)下用于可视化的镧系发光团的合成和应用。发光团是一种化合物,它在光激发后重新发射比典型荧光和磷光波长更长的光,因为从配体到镧系离子发射水平的有效能量转移。本文所描述的发光团均来源于铕和铽金属配合物,覆盖了完整的色域。选择合适的配体允许水溶性或不水溶性(如果需要颜料或分散“染料”应用)。与染色或印刷工艺类似,阴离子络合物可应用于聚酰胺纤维或纤维素纤维,而非离子络合物的分散体适用于聚酯或醋酸纤维素纤维。水溶性衍生物也适用于喷墨印刷,不水溶性衍生物适用于平版或凹版纸印刷。这种新型复合物被300纳米以下的辐射激发,因此不能被阳光激活(地球的大气层阻止300纳米以下的光线到达地表)。因此,所获得的染色材料和印刷品的光稳定性都很好。这些材料可用于安全标记应用,例如钞票和护照,它们可以取代目前在近紫外光(通常为365纳米)照明下可见的荧光团,但其光稳定性相对较差。基于这些创新发光基团的喷墨印刷RGB(红、绿、蓝)调色板的开发将极大地支持数字印刷安全特性的设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Investigation into the development of novel lanthanide-based luminescent colorants for application to textiles and paper materials

Investigation into the development of novel lanthanide-based luminescent colorants for application to textiles and paper materials

This article describes the synthesis and application of lanthanide-based luminophores for visualisation under short wavelength ultraviolet (UV) activation (typically 254 nm). Luminophores are chemical compounds which re-emit light of longer wavelength than typical fluorescence and phosphorescence, following photoexcitation, because of efficient energy transfer from the ligands to the lanthanide ion emission levels. The luminophores described in this article are all derived from europium and terbium metal complexes and cover the complete colour gamut. Selection of appropriate ligands allows for water solubility or water insolubility (if required pigment or disperse “dye” applications). Similar to dyeing or printing processes, the anionic complexes can be applied to polyamide fibres or to cellulosic fibres, whereas dispersions of the non-ionic complexes are suitable for polyester or cellulose acetate fibre application. The water-soluble derivatives are also suitable for ink-jet printing and the water-insoluble derivatives are suitable for lithographic or intaglio paper printing. The novel complexes are excited by radiation below 300 nm and thus cannot be activated by sunlight (the earth's atmosphere prevents light below about 300 nm reaching the surface). Accordingly, the photo-stability of the dyed materials and prints obtained is excellent. These materials could be used in security marking applications, for example bank-notes and passports, where they could replace the current fluorophores that are rendered visible under near UV light (typically 365 nm) illumination but exhibit relatively poor photo-stability. The development of an RGB (red, green and blue) colour palette for inkjet printing based on these innovative luminophores will significantly support the design of digitally printed security features.

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来源期刊
Coloration Technology
Coloration Technology 工程技术-材料科学:纺织
CiteScore
3.60
自引率
11.10%
发文量
67
审稿时长
4 months
期刊介绍: The primary mission of Coloration Technology is to promote innovation and fundamental understanding in the science and technology of coloured materials by providing a medium for communication of peer-reviewed research papers of the highest quality. It is internationally recognised as a vehicle for the publication of theoretical and technological papers on the subjects allied to all aspects of coloration. Regular sections in the journal include reviews, original research and reports, feature articles, short communications and book reviews.
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