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Removing the Dye Kitchen from the Textile Supply Chain

  • Celina JonesEmail author
  • Claudia E. Henninger
Chapter

Abstract

This research explores the concept of mimicking structural colour in nature as an alternative to traditional textile colouration techniques. In particular, the research focuses on certain species of insect that have inspired new research and development in the textile industry.

Keywords

Dye kitchen Supply chain Colouration Colour Process 

References

  1. Akarslan, F., & Demiralay, H. (2015). Effects of textile materials harmful to human health. Acta Physica Polonica A, 128, 402–408.Google Scholar
  2. Baxter Packwood, K. (2001). Getting started with natural dying. Ames, IA: Packwood.Google Scholar
  3. Bird, C. L., Boston, W. S., & Society of Dyers Colourists. (1975). The theory of coloration of textiles. Bradford: Society of Colourists for Dyers Company Publications Trust.Google Scholar
  4. Chhabra, E. (2015). Natural dyes versus synthetic: Which is more sustainable? The Guardian (online). Retrieved November 24, 2018, from https://www.theguardian.com/sustainable-business/sustainable-fashion-blog/2015/mar/31/natural-dyes-v-synthetic-which-is-more-sustainable.
  5. Claudio, L. (2007). Waste Couture: Environmental impact of the clothing industry. Environmental Health Perspectives, 115(9), 449–454.CrossRefGoogle Scholar
  6. Das, S., Shanmugam, N., Kumar, A., & Jose, S. (2017). Review: Potential of biomimicry in the field of textile technology. Bioinspired, Biomimetic and Nanobiomaterials Review, 1–12.Google Scholar
  7. DuPont. (2018). What is textile desizing? DuPont (online). Retrieved November 24, 2018, from http://www.dupont.com/products-and-services/industrial-biotechnology/industrial-enzymes-bioactives/articles/what-is-desizing.html.
  8. Ghiradella, H. (1991). Light and color on the wing: Structural colors in butterflies and moths. Applied Optics, 30(24), 3492–3500.CrossRefGoogle Scholar
  9. Henninger, C. E., Alevizou, P. J., Oates, C. J., & Cheng, R. (2015). Sustainable supply chain management in the slow-fashion industry. In T. M. Choi & T. C. E. Cheng (Eds.), Sustainable fashion supply chain management: From sourcing to retailing. Heidelberg: Springer.Google Scholar
  10. Ingamells, W. (1993). Colour for textiles. West Yorkshire.Google Scholar
  11. Irfan, M., Zhang, H., Syed, U., & Hou, A. (2018). Low liquor dying of cotton fabric with reactive dye by an eco-friendly technique. Journal of Cleaner Production, 197, 1480–1487.CrossRefGoogle Scholar
  12. Jones, C. (2017). Textile materials inspired by structural colour in nature. PhD thesis, University of Manchester.Google Scholar
  13. Kang, J. H., Kim, S. H., Fernandez-Nieves, A., & Reichmanis, E. (2017). Amplified photon upconversion by photonic shell of cholesteric liquid crystals. Journal of the American Chemical Society, 139(16), 5708–5711.CrossRefGoogle Scholar
  14. Kant, R. (2012). Textile dyeing industry an environmental hazard. Nature Science, 4(1), 17027–17032.Google Scholar
  15. Kaye, L. (2013). Clothing to dye for: The textile sector must confront water risks. The Guardian (online). Retrieved November 24, 2018, from https://www.theguardian.com/sustainable-business/dyeing-textile-sector-water-risks-adidas.
  16. Kinoshita, S. (2008). Structural colors in the realm of nature. Singapore: World Scientific.CrossRefGoogle Scholar
  17. Kobya, M., Demirbas, E., Can, O. T., & Bayramoglu, M. (2006). Treatment of levafix orange textile dye solution by electrocoagulation. Journal of Hazardous Materials, 132(2/3), 183–188.CrossRefGoogle Scholar
  18. Lagerwall, J. P. F., & Scalia, G. (2012). A new era for liquid crystal research: Applications for liquid crystals in soft matter nano-, bio- and microtechnology. Current Applied Physics, 12, 1387–1412.CrossRefGoogle Scholar
  19. Lambert, D. M., Croxton, K. L., Garcıa-Dastugue, S. J., Knemeyer, M., & Rogers, D. S. (2006). Supply chain management processes, partnerships, performance (2nd ed.). Jacksonville, FL: Hart-ley Press.Google Scholar
  20. Liu, K., Zhang, X., & Yan, K. (2018). Bleaching of cotton fabric with tetraacetylhydrazine as bleach activator for H2O2. Carbohydrate Polymers, 188, 221–227.CrossRefGoogle Scholar
  21. McLaren, K. (1986). The colour science of dyes and pigments (2nd ed.). Bristol: Hilger.Google Scholar
  22. Nassau, K. (2001). The physics and chemistry of color. New York: John Wiley & Sons Inc.Google Scholar
  23. Picot, O. T., Dai, M., Broer, D. J., Peijs, T., & Bastiaansen, C. W. M. (2013). New approach toward reflective films and fibers using cholesteric liquid-crystal coatings. ACS Applied Materials & Interfaces, 5(15), 7117–7121.CrossRefGoogle Scholar
  24. Pursiainen, O. L. J., Baumberg, J. J., Winkler, H., VIel, B., Spahn, P., & Ruhl, T. (2008). Shear-induced organization in flexible polymer opals. Advanced Materials, 20(8), 1484–1487.CrossRefGoogle Scholar
  25. Robertson, S. (2011). An investigation of the design potential of thermochromic textiles used with electronic heat-profiling circuitry. Doctoral dissertation, Heriot-Watt University.Google Scholar
  26. Saito, A., Ishibashi, K., Ohga, J., Hirai, Y., & Kuwahara, Y. (2018). Fabrication process of large-are Morpho-colour flexible film via flexible nano-imprint mold. Journal of Photopolymer Science and Technology, 31(1), 113–119.CrossRefGoogle Scholar
  27. Shao, J., Liu, G., & Zhou, L. (2016). Biomimetic nanocoatings for structural coloration of textiles. In J. Hu (Ed.), Active coatings for smart textiles (pp. 269–299). Duxford: Woodhead Publishing.CrossRefGoogle Scholar
  28. Sharma, V., Crne, M., Park, J. O., & Srinivasarao, M. (2009). Structural origin of circularly polarized iridescence in jeweled beetles. Science, 325(5939), 449.CrossRefGoogle Scholar
  29. Tabata, H., Kumazawa, K., Funakawa, M., Jun-ichi, T., & Akimoto, M. (1996). Microstructures and optical properties of scales of butterfly wings. Optical Review, 3(2), 139–145.CrossRefGoogle Scholar
  30. Tejin. (2010). Chomagenic fibre. Transmaterial (online). Retrieved November 24, 2018, from http://transmaterial.net/morphotex/.
  31. The True Cost. (2015). The true cost, 26th May 2015.Google Scholar
  32. Trusted Clothes. (2016). Impact of dyes. Trusted Clothes (online). Retrieved November 24, 2018, from https://www.trustedclothes.com/blog/2016/06/23/impact-of-dyes/.
  33. Van Berkel, R. (2017). Water efficiency in textile processing. UN (online). Retrieved November 24, 2018, from http://kms.recpnet.org/uploads/resource/2845a5b02cca6a6ba7cd90735a9e1575.pdf.
  34. Vukusic, P., Sambles, J. R., Lawrence, C. R., & Wootton, R. J. (1999). Quantified interference and diffraction in single morpho buttery scales. Proceedings of the Royal Society of London B: Biological Sciences, 266(1427), 1403–1411.CrossRefGoogle Scholar
  35. Walter, B. (1895). Die Oberachen-oder Schillerfarben. F. Vieweg and son.Google Scholar
  36. Yavuz, G., Zille, A., Seventekin, N., & Souto, A. P. (2018). Structural coloration of chitosan cellulose fabrics by electrostatic self-assembled poly (styrene-methyl methacrylate-acrylic acid) photonic crystals. Carbohydrate Polymers, 193, 343–352.CrossRefGoogle Scholar
  37. Yu, D., Wu, M., Lin, J., & Zhu, J. (2018). Economical low-temperature bleaching of cotton fabric using an activated peroxide system coupling cupric ions with bicarbonate. Fibres & Polymers, 19(9), 1898–1907.CrossRefGoogle Scholar

Copyright information

© The Author(s) 2020

Authors and Affiliations

  1. 1.School of Materials, University of ManchesterManchesterUK

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