Durable antimicrobial cotton textiles modified with inorganic nanoparticles

被引:0
作者
YanYan Zhang
QingBo Xu
FeiYa Fu
XiangDong Liu
机构
[1] Zhejiang Sci-Tech University,Key Laboratory of Advanced Textile Materials and Manufacturing Technology, Ministry of Education, College of Materials and Textile
[2] Anhui Polytechnic University,College of Textiles and Clothing
来源
Cellulose | 2016年 / 23卷
关键词
Antimicrobial effect; Cotton fabric; Inorganic nanoparticles; Surface modification; Durability;
D O I
暂无
中图分类号
学科分类号
摘要
Numerous inorganic nanoparticles can impart antimicrobial properties to cotton textiles; however, the antimicrobial performance of the modified textile products is generally less durable. To solve this problem, accurate evaluation of the antimicrobial durability, and improved finishing techniques using inorganic nanoparticles are vital. In this review, it is demonstrated that a reliable description of durability consists of three factors: antimicrobial efficiency, its downtrend profile, and the loss of the inorganic NPs during the washing process. Based on a systematic evaluation of scientific publications, recent progress on antimicrobial cotton textiles modified using inorganic nanoparticles is summarized, with a focus on the durability. It was found that suitable polymer binders and the application of microwave or ultrasound are effective ways to improve the durability of antimicrobial fabrics. These findings will be helpful in designing durable new antimicrobial textiles using environmentally benign protocols.
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页码:2791 / 2808
页数:17
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  • [1] Abramov OV(2009)Pilot scale sonochemical coating of nanoparticles onto textiles to produce biocidal fabrics Surf Coat Technol 204 718-722
  • [2] Gedanken A(2015)Effect of plasma duty cycle on silver nanoparticles loading of cotton fabrics for durable antibacterial properties J Appl Polym Sci 132 9-129
  • [3] Koltypin Y(2015)The role of cellulosic chains of cotton in biosynthesis of ZnO nanorods producing multifunctional properties: mechanism, characterizations and features Carbohyd Polym 126 122-3121
  • [4] Perkas N(2013)Development of antimicrobial cotton fabric using bionanocomposites Cellulose 20 3111-1088
  • [5] Perelshtein I(2011)A study of the antimicrobial property of encapsulated copper oxide nanoparticles on cotton fabric Text Res J 81 1081-4139
  • [6] Joyce E(2008)Nanoparticle silver released into water from commercially available sock fabrics Environ Sci Technol 42 4133-135
  • [7] Mason TJ(2015)Application of carboxymethylcellulose hydrogel based silver nanocomposites on cotton fabrics for antibacterial property Carbohyd Polym 134 128-495
  • [8] Airoudj A(2013)A new strategy for producing antibacterial textile surfaces using silver nanoparticles Chem Eng J 228 489-2514
  • [9] Ploux L(2011)Copper-based nanostructured coatings on natural cellulose: nanocomposites exhibiting rapid and efficient inhibition of a multi-drug resistant wound pathogen, A. baumannii, and mammalian cell biocompatibility in vitro Adv Funct Mater 21 2506-139
  • [10] Roucoules V(2012)Synthesis of ZnO nanoparticles using PS-b-PAA reverse micelle cores for UV protective, self-cleaning and antibacterial textile applications Coll Surf A Physicochem Eng Asp 414 132-409
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