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Photochemical production of gold films on the surface of fabric materials

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
A technology for producing gold films on the surface of fabric materials has been developed, which provides for preliminary wetting of the fabric product with aqueous solutions of gold (III) chloride. In this case, a sorption layer of gold chloride is formed on the surface of fabric materials. Then, when drying these products under sunlight, physicochemical and photochemical processes occur, leading initially to the formation of monovalent gold chlorides, which, having semiconductor properties, provide the release of elemental gold. After washing of by-products on the surface of the material remains an ultra-thin film of gold, which has a sufficiently strong grip on the base. Since the proposed technology does not require special equipment it can be used to apply functional films of gold on various products of technical, household and medical purposes.
Słowa kluczowe
Rocznik
Strony
28--30
Opis fizyczny
Bibliogr. 12 poz., rys., tab., wz.
Twórcy
  • M. Auezov South Kazakhstan State University, Shymkent, Republic of Kazakhstan
autor
  • M. Auezov South Kazakhstan State University, Shymkent, Republic of Kazakhstan
  • M. Auezov South Kazakhstan State University, Shymkent, Republic of Kazakhstan
  • M. Auezov South Kazakhstan State University, Shymkent, Republic of Kazakhstan
  • M. Auezov South Kazakhstan State University, Shymkent, Republic of Kazakhstan
  • M. Auezov South Kazakhstan State University, Shymkent, Republic of Kazakhstan
Bibliografia
  • 1. Igal, K., Romina, A. & Jorge, E. (2019). Antifungal activity of cotton fabrics finished modified silica-silver-carbon based hybrid nanoparticles. Textile Res. J. 5(89), 825–833. DOI: 10.1177/0040517518755792.
  • 2. Szmuc, K., Kus-Liskiewicz, M., Szyller, Ł., Szmuc, D., Stompor, M., Zawlik, I., Ruman, T., Wołowiec, S., & Cebulski, J. (2019). Silver nanoparticles deposited on calcium hydrogen-phosphate –silver phosphate matrix; biological activity of the composite. Pol. J. Chem. Technol. 21(2), 6–13. DOI: 10.2478/pjct-2019-0013.
  • 3. Burkat, G.K. (2009). Jelektroosazhdenie dragocennyh metallov [in Russian: Electrodeposition of precious metals]. Saint-Petersburg, Russia: Politechnika.
  • 4. Lansdown, A. (2002). Silver. Its antibacterial properties and mechanism of action. J. Wound Care, 11(4), 125–130. DOI: 10.12968/jowc.2002.11.4.26389.
  • 5. Samsonov, N. & Dudkin, N. (2014, June). Zolotaja traektorija – 2 [in Russian: The Golden path - 2]. Expert Sibir. 22, 10–17. Retrieved February 04, 2020, from World Wide Web: http://lib.ieie.nsc.ru/docs/2014/Samsonov_Dudkin_Gold-ExSib2014-22.pdf.
  • 6. Stogni, A. & Novitskyi, N. (2003, November). Poluchenie metodom ionno-luchevogo raspylenija kislorodom i opticheskie svojstva ul’tra tonkih plenok zolota [in Russian: Getting by using ion-beam sputtering with oxygen and optical properties of ultra thin films of gold]. J. Tech. Phys. 6(73), 86–89. Retrieved April 15, 2020, from Elibrary database on the World Wide Web: http://elibrary.lt/resursai/Uzsienio%20leidiniai/ioffe/ztf/2003/06/ztf_t73v06_15.pdf.
  • 7. Tuleushev, A. (2003). Russian Federation Patent No. 2214476. Moscow, Russian Federation: Federal Service for Intellectual Property.
  • 8. Kuchianov, A. (2013). Russian Federation Patent No. 2489230. Moscow, Russian Federation: Federal Service for Intellectual Property.
  • 9. Shkundina, S. (2009, December). Novye processy i materialy v proizvodstve pechatnyh plat [in Russian: New processes and materials in printed circuit boards manufacturing]. Technologies in the electronics industry. 4, 16–20. Retrieved December 21, 2019, from World Wide Web: http://www.tech-e. ru/pdf/2009_04_16.pdf.
  • 10. Satayev, M., Koshkarbaeva Sh. & Tasboltaeva A. (2013, December). Metallization of the roducts of textile industry. Proceed. Higher Educ. Instit. Textile Ind. Technol. 2(348), 102–104. Retrieved December 21, 2019, from World Wide Web: https://ttp.ivgpu.com/wp-content/uploads/2015/10/348.pdf.
  • 11. Medvedev, A. & Nabatov, U. (2010). Immersionnoe zolochenie pod pajku [in Russian: Immersion gold plating for soldering]. Technol. Electr. Ind. 2, 74–77. Retrieved December 21, 2019, from World Wide Web: https://www.teche.ru/2010_2_6.php
  • 12. Isaeva, A., Boitsova, T. & Gorbunova, V. (2007). Photochemical synthesis of gold nanoparticles in aqueous dispersions of carboxylated polystyrene. Russ. J. Gen. Chem. 5(77), 812–817. DOI: 10.1134/S1070363207050027.
Uwagi
This research is funded by the Science Committee of the Ministry of Education and Science of the Republic of Kazakhstan (Grant No. AP08956891).
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e7f4afde-f917-4a53-823b-872c7838d1d8
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