An Overview on Surface Modification of Cotton Fiber for Apparel Use
About 48 % cotton fiber is consumed as clothing materials all over the globe. It is popular for softness, versatility, absorbance and breathability. Cotton is hydrophilic in nature and therefore, it can absorb sweat from the human body and can release in the surface that makes it comfortable. But it...
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| Vydané v: | Journal of polymers and the environment Ročník 21; číslo 1; s. 181 - 190 |
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| Hlavní autori: | , |
| Médium: | Journal Article |
| Jazyk: | English |
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Boston
Springer US
01.03.2013
Springer Springer Nature B.V |
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| ISSN: | 1566-2543, 1572-8900, 1572-8919 |
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| Abstract | About 48 % cotton fiber is consumed as clothing materials all over the globe. It is popular for softness, versatility, absorbance and breathability. Cotton is hydrophilic in nature and therefore, it can absorb sweat from the human body and can release in the surface that makes it comfortable. But it has some inherent limitations such as wrinkle, shrinkage, low dye uptake and microbial degradation. Various approaches have been made to overcome the above limitations. Surface modification of textiles to impart antimicrobial activity, shrinkage, wrinkle resistance, decreased skin irritation, increase dye exhaustion and even enhancing fragrance is the most recent trends in textile chemistry. Various monomers, polymers and biopolymers are applied in different ways to improve different properties of cotton. Chitosan is the mostly used biopolymer in this regard for its biocompatibility, biodegradability, nontoxicity and antimicrobial activity. This paper is a short overview of the most recent development in surface modification of cotton using biopolymers such as chitosan, starch and its derivatives and some other synthetic monomers and polymers. |
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| AbstractList | About 48 % cotton fiber is consumed as clothing materials all over the globe. It is popular for softness, versatility, absorbance and breathability. Cotton is hydrophilic in nature and therefore, it can absorb sweat from the human body and can release in the surface that makes it comfortable. But it has some inherent limitations such as wrinkle, shrinkage, low dye uptake and microbial degradation. Various approaches have been made to overcome the above limitations. Surface modification of textiles to impart antimicrobial activity, shrinkage, wrinkle resistance, decreased skin irritation, increase dye exhaustion and even enhancing fragrance is the most recent trends in textile chemistry. Various monomers, polymers and biopolymers are applied in different ways to improve different properties of cotton. Chitosan is the mostly used biopolymer in this regard for its biocompatibility, biodegradability, nontoxicity and antimicrobial activity. This paper is a short overview of the most recent development in surface modification of cotton using biopolymers such as chitosan, starch and its derivatives and some other synthetic monomers and polymers. About 48 % cotton fiber is consumed as clothing materials all over the globe. It is popular for softness, versatility, absorbance and breathability. Cotton is hydrophilic in nature and therefore, it can absorb sweat from the human body and can release in the surface that makes it comfortable. But it has some inherent limitations such as wrinkle, shrinkage, low dye uptake and microbial degradation. Various approaches have been made to overcome the above limitations. Surface modification of textiles to impart antimicrobial activity, shrinkage, wrinkle resistance, decreased skin irritation, increase dye exhaustion and even enhancing fragrance is the most recent trends in textile chemistry. Various monomers, polymers and biopolymers are applied in different ways to improve different properties of cotton. Chitosan is the mostly used biopolymer in this regard for its biocompatibility, biodegradability, nontoxicity and antimicrobial activity. This paper is a short overview of the most recent development in surface modification of cotton using biopolymers such as chitosan, starch and its derivatives and some other synthetic monomers and polymers. About 48 % cotton fiber is consumed as clothing materials all over the globe. It is popular for softness, versatility, absorbance and breathability. Cotton is hydrophilic in nature and therefore, it can absorb sweat from the human body and can release in the surface that makes it comfortable. But it has some inherent limitations such as wrinkle, shrinkage, low dye uptake and microbial degradation. Various approaches have been made to overcome the above limitations. Surface modification of textiles to impart antimicrobial activity, shrinkage, wrinkle resistance, decreased skin irritation, increase dye exhaustion and even enhancing fragrance is the most recent trends in textile chemistry. Various monomers, polymers and biopolymers are applied in different ways to improve different properties of cotton. Chitosan is the mostly used biopolymer in this regard for its biocompatibility, biodegradability, nontoxicity and antimicrobial activity. This paper is a short overview of the most recent development in surface modification of cotton using biopolymers such as chitosan, starch and its derivatives and some other synthetic monomers and polymers.[PUBLICATION ABSTRACT] |
| Author | Khan, Mubarak A. Mahbubul Bashar, M. |
| Author_xml | – sequence: 1 givenname: M. surname: Mahbubul Bashar fullname: Mahbubul Bashar, M. email: mahbub.mbstu@yahoo.com organization: Department of Textile Engineering, Mawlana Bhashani Science and Technology University – sequence: 2 givenname: Mubarak A. surname: Khan fullname: Khan, Mubarak A. organization: Institute of Radiation and Polymer Technology, Bangladesh Atomic Energy Commission |
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| Keywords | Modification of cotton Dye uptake Antimicrobial activity Wrinkle resistance State of the art Dyeability Cotton fiber Surface treatment Bactericidal effect |
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Hawley’s condensed chemical dictionary199312New YorkVan Nostrand Reinhold TrotmanERDyeing and chemical technology of textile fibres19846NottinghamCharles Griffin & Company Limited US 0054209 (2001) Holme I (2001) “FR and the environment” International Dyer 34–37 BrownWHPoonTIntroduction to organic chemistry20053WileyHoboken LimSHHudsonSMCarbohydr Polym20045622723410.1016/j.carbpol.2004.02.0051:CAS:528:DC%2BD2cXks1Gmu7s%3D TaylorJARev Prog Color2000309310.1111/j.1478-4408.2000.tb03785.x1:CAS:528:DC%2BD3cXovVSjsLk%3D Vigo TL (1983) Protection of textiles from biological attack. Handbook of fiber science and technology. Chemical processing of fibers and fabrics, functional finishes. Part A. New York ChenRHChenHCAdvances in chitin science1998TaiwanRita Advertising Co. Ltd. BN Bandyopadhyay (476_CR57) 1998; 183 WJ Ye (476_CR68) 2006; 102 R Lewis (476_CR2) 1993 WJ Ye (476_CR67) 2005; 46 476_CR31 GAF Roberts (476_CR37) 1992 CM Carr (476_CR5) 1995 RJ Harper (476_CR22) 1986; 18 476_CR35 476_CR79 DM Lewis (476_CR11) 1989; 21 SM Burkinshaw (476_CR27) 1989; 105 M Rubin (476_CR12) 1976; 8 476_CR28 HK No (476_CR42) 1995; 4 SH Lim (476_CR69) 2004; 56 D Astruc (476_CR30) 2010; 110 JA Taylor (476_CR8) 2000; 30 A Kongdee (476_CR82) 2007; 11 F Schlaeppi (476_CR10) 1998; 30 G Qingquan (476_CR32) 2003; 19 GE Evans (476_CR13) 1984; 100 H Mark (476_CR75) 1971 DA Broadbent (476_CR3) 2001 476_CR20 JM Yang (476_CR72) 2003; 90 P Erra (476_CR16) 1999; 69 476_CR25 476_CR24 M Moeyes (476_CR60) 1993 476_CR23 476_CR19 PJ Hauser (476_CR77) 2004; 4 TS Wu (476_CR21) 1993; 109 SM Burkinshaw (476_CR34) 2000; 47 R Samu (476_CR65) 1999; 220 S Saxena (476_CR62) 1997; 44 (476_CR47) 1986 PJ Hauser (476_CR9) 2001; 117 RAA Muzzarelli (476_CR36) 1977 A Karolia (476_CR83) 2007; 32 S Rattanaphani (476_CR1) 2007; 72 ER Trotman (476_CR7) 1984 PE Froehing (476_CR33) 2002; 48 RD Metha (476_CR55) 1991; 80 S Lee (476_CR71) 1999; 69 RS Blackburn (476_CR29) 2003; 89 A Domard (476_CR49) 1997 MG Peter (476_CR51) 2000 JA Rippon (476_CR63) 1984; 100 YH Kim (476_CR74) 1998; 68 476_CR15 476_CR59 Y Zhuangdong (476_CR43) 2007; 21 476_CR58 T Uragami (476_CR52) 2001 R Crawford (476_CR53) 1981 JM Canal (476_CR56) 1998; 183 TS Wu (476_CR26) 1993; 109 HS Amirshahi (476_CR61) 2002; 11 K Stan-Kleinschek (476_CR4) 1998; 40 DM Updegraff (476_CR54) 1969; 32 CJ Brine (476_CR48) 1992 476_CR80 Y-S Chung (476_CR70) 1998; 68 476_CR40 476_CR44 FM Tera (476_CR66) 1996; 43 WH Brown (476_CR64) 2005 S Charuchinda (476_CR81) 2005; 30 476_CR41 YC Chung (476_CR38) 2004; 25 476_CR46 KS Huang (476_CR78) 2008; 73 476_CR45 M Hashem (476_CR76) 2009; 78 NSE Ahmed (476_CR6) 2005; 65 D Enescu (476_CR17) 2008; 13 WD Schindler (476_CR14) 2004 Y Shin (476_CR73) 2001; 80 SKS Kushwaha (476_CR39) 2010; 2 RH Chen (476_CR50) 1998 M Renfrew (476_CR18) 1999 |
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