The evolution of crease finishing in cotton textiles: from past to future

Crease finishing has revolutionized cotton textiles by enhancing wrinkle resistance, durability, and aesthetic appeal, addressing the natural propensity of cotton to crease. This review comprehensively traces the evolution of crease-finishing techniques, from early starch-based methods to modern chemical, nano-based, and enzymatic treatments. Historically, formaldehyde-based resins like urea–formaldehyde and DMDHEU dominated, but health and environmental concerns have driven the adoption of non-formaldehyde alternatives such as polycarboxylic acids (e.g., BTCA) and bio-based agents like citric acid and chitosan. Current advancements include nanotechnology, plasma treatments, and enzymatic processes, which improve crease recovery angles (CRA, 250–300°) while minimizing environmental impact. Challenges persist, including wastewater generation, reduced fabric strength, and consumer demand for sustainable yet high-performance textiles. Future trends focus on green chemistry, smart textiles with self-ironing capabilities, and AI-driven finishing for precision and efficiency. By synthesizing past developments, present innovations, and emerging possibilities, this review provides a roadmap for researchers, manufacturers, and consumers navigating the dynamic landscape of textile finishing, emphasizing sustainability and performance.

Graphical Abstract

Chalenges in Crease Finishing of Cotton Textiles