sg:pub.10.1007/s10570-015-0661-8 - Springer Nature SciGraph

Article Info

DATE

2015-08

AUTHORS

D. Caschera, R. G. Toro, F. Federici, C. Riccucci, G. M. Ingo, G. Gigli, B. Cortese

ABSTRACT

Textiles with superior anti-flammability properties combined with minimal environmental impact are extremely necessary to reduce fire-related issues. In this regard, diamond-like carbon (DLC) coatings on cotton fabrics may represent promising candidates as potential flame-retardant (FR) materials. Herein, superhydrophobic and fire-resistant cotton fabrics were fabricated through a two-step plasma strategy by alternately exposing substrates to H2 and O2 plasma pre-treatments and subsequent DLC deposition. Fourier transform-infrared spectroscopy analysis has revealed that different plasma pre-treatments can impose surface modifications on the chemical structure of cotton, especially in carboxylic and hydroxyl groups, leading to a radical alteration of surface roughness and of the crystalline cellulosic external structure. These changes deeply influenced the growth of DLC thin films and the surface properties of cotton fabric because of the combination of a hierarchical structure and surface chemistry as verified using field emission gun-scanning electron microscopy and water contact angle measurements. The effects of both specific gases used in the pre-treatment step and duration of pre-treatment were analysed and compared using thermogravimetric analyses. The H2-pre-treated DLC cottons exhibited good potential as an FR material, showing improved thermal stability in respect to untreated cotton, as evidenced by increased ignition times. Moreover, vertical burning tests have demonstrated that DLC-cotton systems exhibit enhanced flammability resistance. More... »

PAGES

2797-2809

References to SciGraph publications

2014-02. Effects of plasma treatments for improving extreme wettability behavior of cotton fabrics in CELLULOSE

2011-04. Physical and chemical analysis of plasma-treated cotton fabric subjected to wrinkle-resistant finishing in CELLULOSE

2008-02. Improvements of surface functionality of cotton fibers by atmospheric plasma treatment in FIBERS AND POLYMERS

Journal

TITLE

Cellulose

ISSUE

VOLUME

Subjects

FOR: Physical Chemistry (Incl. Structural)

FOR: Chemical Sciences

Author Affiliations

Italian Institute of Technology

Sapienza University of Rome

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/s10570-015-0661-8

DOI

http://dx.doi.org/10.1007/s10570-015-0661-8

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1051570745

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39	″	schema:description	Textiles with superior anti-flammability properties combined with minimal environmental impact are extremely necessary to reduce fire-related issues. In this regard, diamond-like carbon (DLC) coatings on cotton fabrics may represent promising candidates as potential flame-retardant (FR) materials. Herein, superhydrophobic and fire-resistant cotton fabrics were fabricated through a two-step plasma strategy by alternately exposing substrates to H2 and O2 plasma pre-treatments and subsequent DLC deposition. Fourier transform-infrared spectroscopy analysis has revealed that different plasma pre-treatments can impose surface modifications on the chemical structure of cotton, especially in carboxylic and hydroxyl groups, leading to a radical alteration of surface roughness and of the crystalline cellulosic external structure. These changes deeply influenced the growth of DLC thin films and the surface properties of cotton fabric because of the combination of a hierarchical structure and surface chemistry as verified using field emission gun-scanning electron microscopy and water contact angle measurements. The effects of both specific gases used in the pre-treatment step and duration of pre-treatment were analysed and compared using thermogravimetric analyses. The H2-pre-treated DLC cottons exhibited good potential as an FR material, showing improved thermal stability in respect to untreated cotton, as evidenced by increased ignition times. Moreover, vertical burning tests have demonstrated that DLC-cotton systems exhibit enhanced flammability resistance.
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