Pushkar, H., & Peredriy, О.
(2024).
Commodity aspects of forming a modern range of interior nanotextiles.
Commodity Bulletin,
17(2),
46-54.
https://doi.org/10.62763/cb/2.2024.46
ISSN 2310-5283
e-ISSN 3041-1432
UDC 67; 68; 33
Commodity aspects of forming a modern range of interior nanotextiles
Received 12.08.2024, Revised 06.11.2024, Accepted 03.12.2024
Abstract
The use of modern nanotechnologies in the manufacture of interior textile materials allows expanding and diversifying the range of products, providing completely new functional properties, as well as obtaining unique beneficial effects on these materials and products: aesthetic, antimicrobial, dirt-repellent, therapeutic, and at the same time satisfying the specific needs of consumers. The purpose of the article was to study and substantiate the main directions of formation of the modern range and properties of interior nanotextiles for various purposes. The study used statistical, analytical methods, and the method of system analysis. The analysis of literature sources has shown that in 2010-2024, Ukrainian and foreign scientists studied in detail the economic and technological feasibility of the widespread use of textile nanotechnologies to expand and optimise the range of nanotextiles, including interior ones. Guided by this approach, the article presented an analysis of literature sources for the last 2019-2024 years, which considered the main directions of development and achievements of nanotechnology in textile production to expand the range and properties of interior nanotextiles in Ukraine and the world. On this basis, theoretical provisions for the further development of nanotechnology and the market of interior nanotextiles were formulated and substantiated. The article identified promising areas of use of interior nanotextiles for curtains and draperies, linen, furniture, decor and floor coverings. The advantages and disadvantages of these types of nanotextiles in comparison with traditional materials are identified. The necessity and expediency of expanding the production of various nanoemulsions, nanodispersions and nanopreparations in Ukraine is substantiated in order to provide interior textiles with useful properties, improving their quality and environmental safety. The main focus is on providing textile interior nanomaterials and products with polyfunctional unique properties. In practice, the conducted research can serve to select priority areas of research in the manufacture of interior nanotextiles for various purposes
Keywords:
nanotechnology; interior; nanoprocessing; nanopreparations; consumer properties; environmental safety; hygiene
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References
[1] Aguda, O.N., & Lateef, A. (2022). Recent advances in functionalization of nanotextiles: A strategy to combat harmful microorganisms and emerging pathogens in the 21st century. Heliyon, 8(6), article number e09761. doi: 10.1016/j.heliyon.2022.e09761.
[2] Ali, T., Najam-ul-Haq, M., Mohyuddin, A., Musharraf, S.G., & Husain, D. (2023). Next-generation functional nanotextiles – prospects and challenges. Sustainable Materials and Technologies, 36, article number e00640. doi: 10.1016/j.susmat.2023.e00640.
[3] Almeida, L., & Ramos, D. (2017). Health and safety concerns of textiles with nanomaterials. IOP Conference Series: Materials Science and Engineering, 254, article number 102002. doi: 10.1088/1757-899X/254/10/102002.
[4] Archroma to introduce Perapret® AIR, a groundbreaking air purification textile technology. (2022). Textile World. Retrieved from https://www.textileworld.com/textile-world/2022/06/archroma-to-introduce-perapret-air-a-groundbreaking-air-purification-textile-technology/.
[5] Barbur, V.A., & Heintz, A. (2019). Smart stuff: Conformal conductive coatings for intelligent textiles. Textile World. Retrieved from https://www.textileworld.com/textile-world/features/2019/07/smart-stuff-conformal-conductive-coatings-for-intelligent-textiles/.
[6] Brouwer, D. (2010). Exposure to manufactured nanoparticles in different workplaces. Toxicology, 269(2-3), 120-127. doi: 10.1016/j.tox.2009.11.017.
[7] Chowdhury, A.K.B. (2020). Flame retardants for textile materials. Boca Raton: CRC Press. doi: 10.1201/9780429032318.
[8] Decker, E. (2023). What’s now and next in sustainable textiles? Textile World. Retrieved from https://www.textileworld.com/textile-world/features/2023/07/whats-now-and-next-in-sustainable-textiles/.
[9] El-Abassy, R.A., Faggal, A.A., & Mansour, Y. (2019). Review article nanotechnology applications in interior design of hospitals. International Journal of Engineering Research & Technology, 8(7), 313-319. doi:10.17577/IJERTV8IS070160.
[10] Halyk, I.S., & Semak, B.D. (2014). Ecological safety of textiles: Problems and decisions. Bulletin of Khmelnytskyi National University, 6, 8-90.
[11] ISO 18184:2019. (2019). Textiles – Determination of antiviral activity of textile products. Retrieved from https://www.iso.org/standard/71292.html.
[12] Komolafe, A. et al. (2021). E-textile technology review – from materials to application. IEEE, 9, 97152-97179. doi: 10.1109/ACCESS.2021.3094303.
[13] Kutsenko, T.V. (2017). The use of the latest technologies in the production of textile materials with specified properties. Scientific Notes of Kirovohrad State Pedagogical University named after Volodymyr Vinnichenko. Series: Problems of the Methodology of Physical, Mathematical and Technological Education, 12(2), 179-184.
[14] Kyrylenko, L.V. (2019). Development of nanotechnologies and production of nanomaterials in Ukraine. Scientific Journal “ΛΌГOΣ. The Art of Scientific Mind”, 2, 76-77.
[15] Lyubka, K.S., Sadretdinova, N.V., & Valsenko, V.I. (2019). Analysis of methods of nanomodification of textile materials. In Kyiv Tex & Fashion: Materials of III international scientific-practical conference (pp. 39-44). Kyiv: KNUTD.
[16] Mura, S., Greppi, G., Malfatti, L., Lasio, B., Sanna, V., Mura, M.E., Marceddu, S., & Luglie, A. (2015). Multifunctionalization of wool fabrics through nanoparticles: A chemical route towards smart textiles. Journal of Colloid and Interface Science, 456, 85-92. doi: 10.1016/j.jcis.2015.06.018.
[17] Nanotextiles market report overview. (2023). Business Research Insights. Retrieved from https://www.businessresearchinsights.com/market-reports/nanotextiles-market-101664#:~:text=The%20global%20nanotextiles%20market%20size,proof%2C%20and%20foul%2Dresistant.
[18] Pakholiuk O.V., Peredriy O.I., & Baidakova L.I. (2020). Marketing aspects of the formation of the modern commodity market of nanotextiles and clothing. In Proceedings of the II international scientific and practical conference “Entrepreneurship and trade: Development trends” (pp. 124-126). Odesa, Ukraine.
[19] Pakholiuk, O.V., Martirosyan, I.A., Lubenets, V.I., & Peredriy, O.I. (2021). Influence of “cold” dyeing technology on fabric characteristics. Cellulose Chemistry and Technology, 55(7-8), 911-917. doi: 10.35812/CelluloseChemTechnol.2021.55.77
[20] Pargai, D. (2021). Application of smart and functional dyes in textiles. In R. Papadakis (Ed.), Dyes and pigments – novel applications and waste treatment. Rijeka: Intechopen. doi: 10.5772/intechopen.96045.
[21] Pushkar, H.O. (2013). Interior textiles: Commodity aspects of assortment and quality. Lviv: Magnolia.
[22] Pushkar, H.O., Halyk, I.S., & Semak, B.D. (2020). Substantiation of expediency of the development of a separate nanotextile market in Ukraine and improvement of methods of its operational efficiency assessment. Bulletin of Lviv University of Trade and Economics Technical Sciences, 24, 50-57. doi: 10.36477/2522-1221-2020-24-07.
[23] Research and market. (2024). The world’s largest market research store. Retrieved from https://www.researchandmarkets.com/.
[24] Shah, M.А., Masood Pirzada, B., Price, G., Shibiru, A.L., & Qurashi, A. (2022). Applications of nanotechnology in smart textile industry: A critical review. Journal of Advanced Research, 38, 55-75. doi: 10.1016/j.jare.2022.01.008.
[25] Singh, A., & Sheikh, J. (2022). Synthesis and application of a novel cold brand reactive dye to impart colouration, mosquito repellency, and UV protection to nylon. Arabian Journal of Chemistry, 15(12), article number 104339. doi: 10.1016/j.arabjc.2022.104339.
[26] Som, C., Wick, P., Krug, H., & Nowack, B. (2011). Environmental and health effects of nanomaterials in nanotextiles and façade coatings. Environment International, 37(6), 1131-1142. doi: 10.1016/j.envint.2011.02.013.
[27] Syduzzaman, Md., Hassan, A., Anik, H.R., Akter, M., & Islam, Md.R. (2023). Nanotechnology for high-performance textiles: A promising frontier for innovation. Chemistry of Nanomaterials for Energy, Biology and More, 9(9), article number e202300205. doi: 10.1002/cnma.202300205.