Kooperativer Bibliotheksverbund

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Format: 1 online resource (352 pages).

ISBN: 9780081012505 , 0081012500 , 9780081012147 , 0081012144

Series Statement: The Textile Institute book series

Note: Front Cover -- Nanofinishing of Textile Materials -- Copyright -- Contents -- Chapter 1: Introduction: Textile finishing -- 1.1. Introduction: Textile finishing definition and historical overview -- 1.2. Textile finishing classification -- 1.2.1. Mechanical finishing -- 1.2.1.1. Calendaring -- 1.2.1.2. Raising -- 1.2.1.3. Decatizing -- 1.2.1.4. Fulling -- 1.2.1.5. Sanforizing -- 1.2.2. Physical finishing -- 1.2.2.1. Plasma -- 1.2.2.2. Laser -- 1.2.2.3. Microwave -- 1.2.2.4. Radiofrequency -- 1.2.2.5. Infrared -- 1.2.2.6. Ultraviolet -- 1.2.2.7. Ultrasound -- 1.2.3. Chemical finishing -- 1.2.4. Biofinishing -- 1.2.4.1. Amylases -- 1.2.4.2. Proteases -- 1.2.4.3. Transglutaminases -- 1.2.4.4. Pectinases -- 1.2.4.5. Lipases -- 1.2.4.6. Cellulases -- 1.2.4.7. Laccases -- 1.2.4.8. Peroxidases -- 1.2.5. Nanofinishing -- 1.3. Conclusion -- References -- Chapter 2: Nanofinishing: Fundamental principles -- 2.1. Introduction -- 2.2. Nanofinishing classification -- 2.2.1. Nanostructures -- 2.2.1.1. Metal nanoparticles -- Silver (Ag) -- Gold (Au) -- Copper (Cu) -- 2.2.1.2. Metal oxide nanoparticles -- Titanium dioxide (TiO2) -- Zinc oxide (ZnO) -- 2.2.2. Nanolayer -- 2.2.3. Nanoroughness -- 2.3. Conclusion and future remarks -- References -- Chapter 3: Nanoscouring -- 3.1. Introduction -- 3.2. Progress in scouring: A short historical overview -- 3.2.1. Cotton scouring -- 3.2.2. Wool scouring -- 3.2.3. Silk scouring -- 3.2.4. Synthetic fibers scouring -- 3.3. Nanoscouring -- 3.3.1. Nanophotoscouring of cellulosic fibers -- 3.3.2. Nanophotoscouring of protein fibers -- 3.3.3. Nanophotoscouring of synthetic fibers -- 3.3.4. Nanobiophotoscouring -- 3.4. Conclusion -- References -- Sources of further information -- Chapter 4: Nanobleaching -- 4.1. Introduction -- 4.2. Progress in bleaching: A short historical overview -- 4.2.1. Cotton bleaching. , 4.2.2. Wool bleaching -- 4.2.2.1. Wool photobleaching -- 4.2.3. Silk bleaching -- 4.2.4. Synthetic fibers bleaching -- 4.3. Nanophotobleaching -- 4.4. Conclusion -- References -- Further reading -- Chapter 5: Nanosurface activation -- 5.1. Introduction -- 5.2. Surface activation methods -- 5.2.1. Surface activation of cellulosic fibers -- 5.2.2. Surface activation of protein fibers -- 5.2.3. Surface activation of synthetic fibers -- 5.3. Nanosurface activation -- 5.4. Conclusion -- References -- Chapter 6: Nanosoftening -- 6.1. Introduction: Definition and mechanism of softening -- 6.2. Softening agent classification -- 6.3. Nanosoftening -- 6.3.1. Nanoclay -- 6.3.2. Nanosilicones -- 6.4. Conclusion -- References -- Chapter 7: Nanocoating and lamination -- 7.1. Introduction: Definition and general concepts -- 7.1.1. Coating -- 7.1.2. Lamination -- 7.2. Coating methods -- 7.3. Lamination methods -- 7.4. Nanocoating -- 7.4.1. Nanocoating techniques -- 7.4.1.1. Electroless deposition -- 7.4.1.2. Vapor deposition -- 7.4.1.3. Layer by layer -- 7.4.1.4. Plasma polymerization -- 7.4.1.5. Sol gel -- 7.5. Smart nanocoatings -- 7.6. Conclusion -- References -- Further Reading -- Chapter 8: Nanocrosslinking -- 8.1. Introduction: General definition and history of cellulose crosslinking -- 8.2. Crosslinking as stabilization agent -- 8.3. Nanocrosslinking -- 8.3.1. Crosslinking agents for fixation of nanoparticles on textile substrates -- 8.3.2. Nanoparticles as crosslinking agents -- 8.4. Conclusion -- References -- Chapter 9: Nanofinishes for self-cleaning textiles -- 9.1. Introduction: Definition and historical overview -- 9.2. Surface wettability -- 9.3. Nanofinishes for self-cleaning textiles -- 9.3.1. Self-cleaning textiles based on lotus effect -- 9.3.2. Photoinduced hydrophilicity and self-cleaning: Definition and mechanism. , 9.3.2.1. Enhanced photocatalytic self-cleaning properties -- 9.3.2.2. TiO2 nanoparticles for self-cleaning textiles -- 9.3.2.3. ZnO nanoparticles for self-cleaning textiles -- 9.3.2.4. Other nanosemiconductors -- 9.3.2.5. Methods for evaluating photocatalytic self-cleaning properties -- 9.4. Conclusion -- References -- Further Reading -- Chapter 10: Antimicrobial textile nanofinishes -- 10.1. Introduction -- 10.2. Common textile bacteria and fungus -- 10.3. Antimicrobial mechanism -- 10.4. Common textile antimicrobial agents -- 10.5. Toxicity and health issues -- 10.6. Evaluation of antimicrobial activities -- 10.7. Conclusion -- References -- Further Reading -- Chapter 11: Flame-retardant textile nanofinishes -- 11.1. Introduction -- 11.2. General classification and mechanism -- 11.3. Nanoclay -- 11.4. Carbon nanotube -- 11.5. Nano-organic-inorganic hybrid -- 11.6. SiO2 -- 11.7. Metal (oxide/hydroxide) nanoparticles -- 11.8. Nanocoatings based on LBL technique -- 11.9. Flame-retardant evaluation methods -- 11.10. Conclusion -- References -- Further Reading -- Chapter 12: Water-repellent textile nanofinishes -- 12.1. Introduction: Definition and historical overview -- 12.2. Water-repellent nanofinishes -- 12.2.1. Plasma -- 12.2.2. Nanostructured materials and nanosurface roughness -- 12.2.3. Dendrimers -- 12.2.4. Biomaterials -- 12.3. Self-healing properties -- 12.4. Evaluation test methods -- 12.5. Conclusion -- References -- Further Reading -- Chapter 13: Waterproof nanofinishes for textiles -- 13.1. Introduction: Definition and historical approaches -- 13.2. New approaches and materials -- 13.2.1. Waterborne polyurethane -- 13.2.2. Electrospinning -- 13.2.3. Smart polymers -- 13.3. Conclusion -- References -- Chapter 14: Antifouling and soil-repellent nanofinishes -- 14.1. Introduction -- 14.2. Chemical methods -- 14.3. Physical methods. , 14.4. Biofinishing -- 14.5. Nanofinishing -- 14.6. New antifouling/soil-release approaches -- 14.7. Conclusion -- References -- Further Reading -- Chapter 15: Sensing nanofinishes for textiles -- 15.1. Introduction -- 15.2. Physical stimulus -- 15.2.1. Temperature-sensitive textiles -- 15.2.2. Light-sensitive textiles -- 15.2.3. Mechanical-sensitive textiles -- 15.3. Chemical stimulus -- 15.3.1. pH-sensitive textiles -- 15.3.2. Humidity-sensitive textiles -- 15.3.3. Chemical-sensitive textiles -- 15.3.3.1. Chemical sensors based on color change -- 15.3.3.2. Chemiresistive and electrochemical sensors -- 15.4. Conclusion -- References -- Chapter 16: Magnetic nanofinishes for textiles -- 16.1. Introduction: General definitions and applications -- 16.2. Different types of magnetic materials -- 16.3. Nanofinishes for magnetic textiles -- 16.3.1. Iron and iron oxide nanoparticles -- 16.3.2. Nickel -- 16.3.3. Carbonyl iron -- 16.4. Evaluation test methods -- 16.5. Conclusion and future remarks -- References -- Chapter 17: Conductive nanofinishes for textiles -- 17.1. Introduction -- 17.2. Conductive nanofibers and nanocomposites -- 17.3. Nanometal coatings -- 17.4. Screen and ink-jet printing -- 17.5. Carbon nanofibers -- 17.6. Carbon nanotubes -- 17.7. Graphene -- 17.8. Intrinsically conducting polymers -- 17.9. Electrotextiles for energy storage and conversion -- 17.10. Conclusion -- References -- Further Reading -- Chapter 18: Nanofinishes for protective textiles -- 18.1. Introduction -- 18.2. Insect protection nanofinishes -- 18.2.1. Mosquito-repellent finishes -- 18.2.2. Moth-proofing finishes -- 18.3. UV protection finishes -- 18.3.1. Colorants as UV-blocking agents -- 18.3.2. UV protective finishing agents -- 18.3.3. UV-protection evaluation methods -- 18.4. Electromagnetic interference shielding -- 18.4.1. Electromagnetic wave. , 18.4.2. EMI-shielding textiles -- 18.4.2.1. Reflection loss mechanism -- 18.4.2.2. Absorbance loss mechanism -- 18.5. Chemical warfare agent protective finishes -- 18.5.1. CWA protection evaluation method -- 18.6. Conclusion -- References -- Further Reading -- Chapter 19: Nanoencapsulation techniques for textile finishing -- 19.1. Introduction -- 19.2. Definition, classification, and release mechanism -- 19.3. Encapsulation techniques -- 19.4. Application methods to textile substrates -- 19.5. Fragrance textiles -- 19.5.1. Odor (fragrance) evaluation -- 19.6. Medical textiles -- 19.7. Thermoregulated textiles -- 19.8. Encapsulation of dyes -- 19.9. Conclusion -- References -- Further Reading -- Chapter 20: Health, safety, and environmental aspects of textile nanofinishing -- 20.1. Introduction -- 20.2. Environmental concerns -- 20.3. Human health concerns -- 20.4. Conclusion -- References -- Sources of further information -- Further Reading -- Chapter 21: Future trends in textile nanofinishing -- 21.1. Textile nanofinishing in future -- 21.2. Conclusion -- References -- Index -- Back Cover.

Language: English