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This study aims to synthesise and characterise new reactive dyes based on thiazole derivatives which act as chromophoric moieties. These dyes were applied to cotton fabric, resulting in the dyed fabrics exhibiting good colour strength, light fastness and other fastness properties. The antibacterial activity of the dyed cotton fabric was evaluated against gram-negative and gram-positive bacteria.

The dyes were synthesised in two steps. First, the coupling compound was formed by adding H-acid solution to cyanuric chloride in an ice bath at pH 5 then adding 4-aminobenzenesulphonic acid portion-wise at room temperature and at pH 6-7. Second, different diazonium salts 4-phenylthiazol-2-amine (2a) and 4-(4-methoxyphenyl) thiazol-2-amine (2b) were coupled with the coupling compound at pH 5. The resultant monochlorotriazine (MCT)-reactive dyes (6a, 6b) were formed. The synthesised dyes were applied onto cotton fabric under typical exhaust dyeing conditions and their dyeing properties were investigated.

High antimicrobial activity, dye exhaustion and fixation yield on cotton fabric were recorded for each dye. All dyes showed high stability against washing, rubbing, perspiration and light fastness.

Dyeing of cotton fabric with these dyes which have higher fastness, higher exhaustion and higher antibacterial activity is considered one of the most important reactive dyes species.

The preparation procedure showed the synthesis of the novel MCT-reactive dyes derived from thiazole derivatives followed by the application of these dyes on cotton fabrics.

Use of reactive dyes will bring a number of benefits to society including higher fastness and higher antibacterial activity so, and these dyes can be used for dyeing cotton.

In this work, the new reactive dyes derived from thiazole derivatives were synthesised and their structures were confirmed by the analytical and spectral data. Such compounds are considered to be excellent reactive dyes with different colour shades and higher antibacterial activity.

Eight reactive auxiliaries that act as dye resist agents and differ in number of ionic charges and molecular weights are synthesized and their dye resist effect on wool is evaluated. The results obtained indicate that reactive auxiliary A8 exhibits the highest dye resist effect which means that an increase in the number of ionic groups and molecular weight of an auxiliary leads to better electrostatic repulsion of the dye and thus improves the resist effectiveness. The effect of the dye bath pH, salt concentration, dyeing temperature, dyeing time, and concentration of dye and auxiliaries, are also studied. The fastness properties of the dyed fabric are evaluated. The resist effect achieved with the differential dyeing technique is consistently better than that with dye resist treatments for the eight auxiliaries. When treated wool is dyed in competition with untreated wool, the latter tends to take up the greater part of the dye in the dye bath.