Invention of high-performance, environmentally friendly disazo acid dyes (D 1 -D 4 ) intended for sustainable textile coloring and pH-responsive sensing applications is reported in this study. Sulphanilic acid and other aromatic derivatives were used in simplified diazotization-coupling procedure to create dyes. Effective integration of azo and sulfonate groups, guaranteeing superior water solubility, was verified by structural characterization. Dyes created bright, high-affinity orange and red colors with remarkable wash and light fastness (ratings: 4–5) when applied to wool and nylon. λ max values in UV-vis spectra varied according to substituent location, from 479 to 485 nm. Notably, protonation-deprotonation balance drives Dye D 1 ’s reversible, “smart” color shift from brown to pink in response to pH changes. Among synthesized dyes, D 1 showed a clear and reversible pH-responsive color change, going from brown to pink under increasingly acidic conditions, while D 3 showed mild pH sensitivity and dyes D 2 and D 4 remained color-stable throughout tested pH range of 2–4, displaying distinct chromatic stability profiles. Compared to nylon, the K/S and fastness qualities of wool materials were higher. These results show that synthesized dyes have great promise for creation of novel, pH-sensitive smart fabrics in addition to offering excellent technical performance and high fixing, which reduces environmental leaching.
Shahzadi et al. (Sun,) studied this question.