Reactive Disperse Dyes Bearing Various Blocked Isocyanate Groups for Digital Textile Printing Ink

Wastewater management is of considerable economic and environmental importance for the dyeing industry. Digital textile printing (DTP), which is based on sublimation transfer and does not generate wastewater, is currently being explored as an inkjet-based method of printing colorants onto fabric. It finds wide industrial applications with most poly(ethylene terephthalate) (PET) and nylon fibers. However, for additional industrial applications, it is necessary to use natural fibers, such as cotton. Therefore, to expand the applicability of DTP, it is essential to develop a novel reactive disperse dye that can interact with the fabric. In this study, we introduced a blocked isocyanate functional group into the dye to enhance binding to the fabric. The effect of sublimation transfer on fabrics as a function of temperature was compared using the newly synthesized reactive disperse dyes with different blocking groups based on pyrazole derivatives, such as pyrazole (Py), di-methylpyrazole (DMPy), and di-tert-butylpyrazole (DtBPy). Fabrics coated with the new reactive disperse dyes, including PET, nylon, and cotton, were printed at 190 degrees C, 200 degrees C, and 210 degrees C using thermal transfer equipment. In the case of the synthesized DHP-A dye on cotton at 210 degrees C, the color strength was 2.1, which was higher than that of commercial dyes and other synthesized dyes, such as DMP-A and DTP-A. The fastness values of the synthesized DHP-A were measured on cotton, and it was found that the washing and light fastness values on cotton are higher than those of commercial dyes. This study confirmed the possibility of introducing isocyanate groups into reactive disperse dyes.

Automated summary

Wastewater management is important for the dyeing industry. Digital textile printing (DTP) is explored as a method for printing colorants onto fabric without generating wastewater, but the use of natural fibers like cotton is desired. This study introduced a blocked isocyanate group into a newly synthesized reactive disperse dye to enhance binding to the fabric. The synthesized dye showed higher color strength and better fastness values on cotton compared to commercial dyes. The possibility of introducing isocyanate groups into reactive disperse dyes was confirmed.