Comparison of the photochromic behaviour of dyes in solution and on polyester fabric applied by supercritical carbon dioxide

Photochromic textiles are of considerable interest for smart and functional textile applications due to their remarkable dynamic colour changing effect when irradiated with light of a certain wavelength. The use of resource efficient processes, such as digital inkjet printing and supercritical carbon dioxide (scCO2) dyeing techniques enables an economic production of those high-end functional products with high material costs. In this study, photochromic polyester fabric has been prepared by applying two commercially important photochromic dyes from spirooxazine (SO) and naphthopyran (NP) dye classes using scCO2-dyeing technique. The properties of scCO2 dyed photochromic fabrics were compared with the properties of the same dyes in a non-polar solvent, hexane. UV-Vis spectroscopy and a specially designed online colour measurement system capable of simultaneous UV irradiation and colour measurement were used to evaluate the photochromic colour behaviour. Both photochromic dye types embedded in textile as well as in solution showed significant reversible colour changing properties when exposed to UV light and revert to their original non-coloured form when the UV light is removed. The scCO2 dyed polyester fabrics exhibited similar trends of colour build-up as in solution, while contrasting behaviour was observed in terms of colour changing rates compared to their behaviour in solution.

[1]  G. Priniotakis,et al.  Aegean International Textile and Advanced Engineering Conference (AITAE 2018) , 2018, IOP Conference Series: Materials Science and Engineering.

[2]  V. Nierstrasz,et al.  Resource-Efficient Production of a Smart Textile UV Sensor Using Photochromic Dyes: Characterization and Optimization , 2018 .

[3]  Aravin Prince Periyasamy,et al.  Effect of drawing ratio on difference in optical density and mechanical properties of mass colored photochromic polypropylene filaments , 2017 .

[4]  Aravin Prince Periyasamy,et al.  A review of photochromism in textiles and its measurement , 2017 .

[5]  Robert M. Christie,et al.  Textile applications of commercial photochromic dyes. Part 6: photochromic polypropylene fibres , 2016 .

[6]  Mohanad Aldib,et al.  Photochromic ink formulation for digital inkjet printing and colour measurement of printed polyester fabrics , 2015 .

[7]  Bhupendra Singh Butola,et al.  Photochromic and Thermochromic Colorants in Textile Applications , 2014 .

[8]  Robert Michael Christie,et al.  Textile applications of photochromic dyes. Part 5: application of commercial photochromic dyes to polyester fabric by a solvent-based dyeing method , 2013 .

[9]  B. Neral,et al.  Textiles screen‐printed with photochromic ethyl cellulose–spirooxazine composite nanoparticles , 2013 .

[10]  M. Kozicki,et al.  UV‐assisted screen‐printing of flat textiles , 2012 .

[11]  Sung-Hoon Kim,et al.  Modulation of a fluorescence switch of nanofiber mats containing photochromic spironaphthoxazine and D-π-A charge transfer dye , 2012 .

[12]  Sung-Hoon Kim,et al.  Photoswitching electrospun nanofiber based on a spironaphthoxazine–isophorone-based fluorescent dye system , 2012 .

[13]  Robert Michael Christie,et al.  Textile applications of photochromic dyes. Part 3: factors affecting the technical performance of textiles screen‐printed with commercial photochromic dyes , 2011 .

[14]  Robert Michael Christie,et al.  Textile applications of photochromic dyes. Part 2: factors affecting the photocoloration of textiles screen‐printed with commercial photochromic dyes , 2010 .

[15]  A. Romani,et al.  Photochromism and Thermochromism of some Spirooxazines and Naphthopyrans in the Solid State and in Polymeric Film , 2010 .

[16]  Xungai Wang,et al.  Photochromic fabrics with improved durability and photochromic performance , 2008 .

[17]  R. Shamey,et al.  Direct coloration of textiles with photochromic dyes. Part 1: Application of spiroindolinonaphthoxazines as disperse dyes to polyester, nylon and acrylic fabrics† , 2008 .

[18]  Xungai Wang,et al.  Fast response photochromic textiles from hybrid silica surface coating , 2008 .

[19]  Sung-Hoon Kim,et al.  Preliminary exhaustion studies of spiroxazine dyes on polyamide fibers and their photochromic properties , 2006 .

[20]  M. Kraan Process and equipment development for textile dyeing in supercritical carbon dioxide , 2005 .

[21]  R. Guglielmetti,et al.  Organic Photochromic and Thermochromic Compounds , 2002 .

[22]  M. G. Hutchings,et al.  Chromic Phenomena: Technological Applications of Colour Chemistry , 2001 .

[23]  Changlong Wu,et al.  Photochromic behaviour of some phenoxyanthraquinone dyes in solution and on polyester substrate , 1997 .

[24]  E. Hadjoudis Photochromic and thermochromic anils , 1995 .

[25]  P. Sassiat,et al.  Retention and selectivity in carbon dioxide supercritical fluid chromatography with various stationary phases , 1986 .

[26]  P. Shah,et al.  Azodisperse Dyes with Photochromic Mercury(II)-Dithizonate Moiety for Dyeing Polyester, Nylon and Cellulose Triacetate Fibres , 1985 .