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W2776036735 startingPage "5739" @default.
W2776036735 abstract "In this review, we report the functionalization of textiles composed of nanoscale reactive materials in the treatment of wounds and skin diseases such as acne. In view of the growing demand for high-quality textiles, much research is focused on the creation of antimicrobial finishings for fabrics, in order to protect customers from pathogenic or odorgenerating microorganisms. We present coatings from inorganic, organic and biochemical nanoparticles (NPs) on surfaces that impart the ability to kill bacteria, avoid biofilm formation and speed up the recovery of wounds. In all three cases, sonochemistry is used for immobilizing the nanoparticles on the surfaces. The Introduction broadly covers the progress of nanotechnology in the fields of wound and skin care. The first section of this review outlines the mechanism of the ultrasound-assisted deposition of nanoparticles on textiles. The coating can be performed by an in-situ process in which the nanoparticles are formed and subsequently thrown onto the surface of the fabrics at a very high speed. This approach was used in depositing metal-oxide NPs such as ZnO, CuO and Zn-CuO or the organic NPs of tannic acid, chitosan, etc. on textiles. In addition, the sonochemical process can be used as a "throwing stone" technique, namely, previously synthesized or commercially purchased NPs can be placed in the sonication bath and sonicated in the presence of the fabric. The collapse of the acoustic bubble in the solution causes the throwing of the immersed commercial NPs onto the textiles. This section will also outline why sonochemical deposition on textiles is considered the best coating technique. The second section will discuss new applications of the sonochemically- coated textiles in killing bacteria, avoiding biofilm formation and more. Two points should be noted: 1) the review will primarily report results obtained at Bar-Ilan University and 2) since for all textiles tested in our experiments (cotton, polyester, nylon, nonwoven) similar results were obtained, the type of textile used in a specific experiment will not be mentioned - textiles will be discussed in general. It is also worth emphasizing that this review concentrates only on the sonochemical coating of textiles, ignoring other deposition techniques." @default.
W2776036735 created "2018-01-05" @default.
W2776036735 creator A5023613406 @default.
W2776036735 creator A5031590812 @default.
W2776036735 creator A5060023258 @default.
W2776036735 creator A5060243713 @default.
W2776036735 date "2019-01-31" @default.
W2776036735 modified "2023-09-27" @default.
W2776036735 title "Imparting Pharmaceutical Applications to the Surface of Fabrics for Wound and Skin Care by Ultrasonic Waves" @default.
W2776036735 cites W1494178231 @default.
W2776036735 cites W1693800702 @default.
W2776036735 cites W1833925918 @default.
W2776036735 cites W1870525910 @default.
W2776036735 cites W1964063433 @default.
W2776036735 cites W1967809469 @default.
W2776036735 cites W1969200326 @default.
W2776036735 cites W1971419320 @default.
W2776036735 cites W1972322892 @default.
W2776036735 cites W1973335940 @default.
W2776036735 cites W1974173600 @default.
W2776036735 cites W1976912318 @default.
W2776036735 cites W1979518397 @default.
W2776036735 cites W1990589377 @default.
W2776036735 cites W1996613829 @default.
W2776036735 cites W1997719487 @default.
W2776036735 cites W2000449686 @default.
W2776036735 cites W2004905031 @default.
W2776036735 cites W2006018359 @default.
W2776036735 cites W2007321034 @default.
W2776036735 cites W2007927389 @default.
W2776036735 cites W2008909397 @default.
W2776036735 cites W2009394385 @default.
W2776036735 cites W2010125053 @default.
W2776036735 cites W2014381718 @default.
W2776036735 cites W2015312698 @default.
W2776036735 cites W2015757542 @default.
W2776036735 cites W2020593438 @default.
W2776036735 cites W2023214121 @default.
W2776036735 cites W2024341328 @default.
W2776036735 cites W2024435274 @default.
W2776036735 cites W2026205946 @default.
W2776036735 cites W2027852890 @default.
W2776036735 cites W2041122272 @default.
W2776036735 cites W2041723596 @default.
W2776036735 cites W2042133224 @default.
W2776036735 cites W2044766599 @default.
W2776036735 cites W2045982747 @default.
W2776036735 cites W2048766099 @default.
W2776036735 cites W2049239674 @default.
W2776036735 cites W2050996220 @default.
W2776036735 cites W2054107463 @default.
W2776036735 cites W2054997209 @default.
W2776036735 cites W2058499720 @default.
W2776036735 cites W2061715856 @default.
W2776036735 cites W2063790803 @default.
W2776036735 cites W2064599227 @default.
W2776036735 cites W2067079793 @default.
W2776036735 cites W2073309870 @default.
W2776036735 cites W2075551106 @default.
W2776036735 cites W2075781721 @default.
W2776036735 cites W2077487966 @default.
W2776036735 cites W2077553502 @default.
W2776036735 cites W2083069772 @default.
W2776036735 cites W2085901007 @default.
W2776036735 cites W2093916644 @default.
W2776036735 cites W2094341145 @default.
W2776036735 cites W2100239211 @default.
W2776036735 cites W2103229089 @default.
W2776036735 cites W2109853771 @default.
W2776036735 cites W2110116275 @default.
W2776036735 cites W2112616847 @default.
W2776036735 cites W2114514942 @default.
W2776036735 cites W2118688570 @default.
W2776036735 cites W2131138695 @default.
W2776036735 cites W2139641588 @default.
W2776036735 cites W2142343447 @default.
W2776036735 cites W2148446025 @default.
W2776036735 cites W2148834557 @default.
W2776036735 cites W2154266686 @default.
W2776036735 cites W2170101626 @default.
W2776036735 cites W2202835482 @default.
W2776036735 cites W2334023175 @default.
W2776036735 cites W2400574790 @default.
W2776036735 cites W3021566866 @default.
W2776036735 doi "https://doi.org/10.2174/0929867325666171229141635" @default.
W2776036735 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29284390" @default.
W2776036735 hasPublicationYear "2019" @default.
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