This research aimed to develop an innovative textile finish using chitosan sol-gel coatings to imbue fabrics hydrophobic properties, ultraviolet (UV) protection, wear resistance, and oil repellency. Chitosan, a bioactive polymer renowned for its antibacterial activity, non-toxicity, ease of modification, and biodegradability, serves as a promising candidate for multifunctional coatings, as evidenced by extensive scientific literature. Within the context of environmental sustainability, chitosan-based organic-inorganic hybrid coatings offer significant potential for the creation of advanced protective layers. In this investigation, organic-inorganic hybrid coatings were synthesized using tetraethyl orthosilicate (TEOS) as the inorganic silica network precursor and chitosan as the organic component. To optimize adhesive strength and water resistance, vinyltrimethoxysilane (VTMS) was used as coupling agent. Various formulation of sol-gel hybrids loaded with different amounts of chitosan were prepared and applied onto different textile substrates (cotton fabrics) by airbrushing technique. Furthermore, recognizing the remarkable versatility demonstrated by the inkjet printing process, we optimized the sol-gel solution composition for digital injection techniques. Our findings unequivocally demonstrate that chitosan concentration and the type of coupling agent wield significant influence over jetting stability. Moreover, several characterizations have been performed to analysis the effect of film composition on several properties. Fourier-transform infrared spectroscopy (FTIR) ù and scanning electron microscopy (SEM) for microstructure examination, water contact angle measurements for surface wettability assessment, hydrolitic degradation tests, and mechanical characterization. These investigations shed light on the intricate interplay between film composition and material properties, providing valuable insights for the development of advanced textile finishes.

Design and characterization of based chitosan sol-gel films for textile substrates / Rosa Taurino, Maria Cannio, Stefano Caporali, Stefano Martinuzzi, Emanuele Galvanetto, Francesca Borgioli, Dino N. Boccaccini. - ELETTRONICO. - (2024), pp. 0-0. (Intervento presentato al convegno 7th International Conference on Materials Science & Nanotechnology, July 15-16, at Vienna 2024 (Austria) tenutosi a Vienna nel 15-16 July 2024).

Design and characterization of based chitosan sol-gel films for textile substrates

Rosa Taurino
;
Maria Cannio;Stefano Caporali;Stefano Martinuzzi;Emanuele Galvanetto;Francesca Borgioli;
2024

Abstract

This research aimed to develop an innovative textile finish using chitosan sol-gel coatings to imbue fabrics hydrophobic properties, ultraviolet (UV) protection, wear resistance, and oil repellency. Chitosan, a bioactive polymer renowned for its antibacterial activity, non-toxicity, ease of modification, and biodegradability, serves as a promising candidate for multifunctional coatings, as evidenced by extensive scientific literature. Within the context of environmental sustainability, chitosan-based organic-inorganic hybrid coatings offer significant potential for the creation of advanced protective layers. In this investigation, organic-inorganic hybrid coatings were synthesized using tetraethyl orthosilicate (TEOS) as the inorganic silica network precursor and chitosan as the organic component. To optimize adhesive strength and water resistance, vinyltrimethoxysilane (VTMS) was used as coupling agent. Various formulation of sol-gel hybrids loaded with different amounts of chitosan were prepared and applied onto different textile substrates (cotton fabrics) by airbrushing technique. Furthermore, recognizing the remarkable versatility demonstrated by the inkjet printing process, we optimized the sol-gel solution composition for digital injection techniques. Our findings unequivocally demonstrate that chitosan concentration and the type of coupling agent wield significant influence over jetting stability. Moreover, several characterizations have been performed to analysis the effect of film composition on several properties. Fourier-transform infrared spectroscopy (FTIR) ù and scanning electron microscopy (SEM) for microstructure examination, water contact angle measurements for surface wettability assessment, hydrolitic degradation tests, and mechanical characterization. These investigations shed light on the intricate interplay between film composition and material properties, providing valuable insights for the development of advanced textile finishes.
2024
7th International Conference on Materials Science & Nanotechnology, July 15-16, at Vienna 2024 (Austria)
7th International Conference on Materials Science & Nanotechnology, July 15-16, at Vienna 2024 (Austria)
Vienna
Rosa Taurino, Maria Cannio, Stefano Caporali, Stefano Martinuzzi, Emanuele Galvanetto, Francesca Borgioli, Dino N. Boccaccini
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1371972
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