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07.11.2019 | Original Research

An environmentally friendly bleaching process for cotton fabrics: mechanism and application of UV/H₂O₂ system

verfasst von: Nanfang Wang, Peixin Tang, Cunyi Zhao, Zheng Zhang, Gang Sun

Erschienen in: Cellulose | Ausgabe 2/2020

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Abstract

Hydroxyl radical is the main reactive species in hydrogen peroxide (H₂O₂) bleaching of cotton fabrics. Ultraviolet (UV) irradiation of the H₂O₂ bleaching system can efficiently produce hydroxyl radicals (HO^·) under neutral or alkaline conditions, which were proven experimentally and theoretically by computational modeling. Various UV/H₂O₂ bleaching routes were screened to obtain desired whiteness index and acceptable bursting strength of the bleached fabrics. The optimal properties of the bleached cotton knitted fabric could be obtained at UV irradiation of 312 nm on the fabrics with a hydrogen peroxide solution under alkaline conditions.

Vorheriger Artikel Silicone quaternary ammonium salt based nanocomposite: a long-acting antibacterial cotton fabric finishing agent with good softness and air permeability

Nächster Artikel Ultrasonic effect on the photocatalytic degradation of Rhodamine 6G (Rh6G) dye by cotton fabrics loaded with TiO2

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Bulut MO (2016) Low temperature bleaching for reactive dyeing and top white knitted cotton fabric. J Clean Prod 137:461–474CrossRef

Buxton GV, Greenstock CL, Helman WP, Ross AB (1988) Critical review of rate constants for reactions of hydrated electrons, hydrogen atoms and hydroxyl radicals (^·OH/^·O⁻ in aqueous solution. J Phys Chem Ref Data 17:513–886CrossRef

Chong Y, Yuting H, Linping Z, Hong X, Yi Z, Zhiping M (2015) Low-temperature bleaching of cotton fabric using a copper-based catalyst for hydrogen peroxide. Color Technol 131:66–71CrossRef

Eberhardt MK, Colina R (1988) The reaction of OH radicals with dimethyl sulfoxide. A comparative study of Fenton’s reagent and the radiolysis of aqueous dimethyl sulfoxide solutions. J Org Chem 53:1071–1074CrossRef

Eren S (2018) Photocatalytic hydrogen peroxide bleaching of cotton. Cellulose 25:3679–3689CrossRef

Galindo C, Kalt A (1999) UV/H₂O₂ oxidation of azodyes in aqueous media: evidence of a structure—degradability relationship. Dyes Pigm 42:199–207CrossRef

Gericke KH, Klee S, Comes FJ, Dixon RN (1986) Dynamics of H₂O₂ photodissociation: OH product state and momentum distribution characterized by sub-Doppler and polarization spectroscopy. J Chem Phys 85:4463–4479CrossRef

Hage R, Lienke A (2006) Applications of transition-metal catalysts to textile and wood-pulp bleaching. Angew Chem Int Ed 45:206–222CrossRef

Hebeish A, Shalaby SE, Bayazeed AM (1981) Graft polymerization of methyl methacrylate on poly(ethylene terephthalate) fibers using H₂O₂ as initiator. J Appl Polym Sci 26:3253–3269CrossRef

Hou A, Feng G, Zhuo J, Sun G (2015) UV light-induced generation of reactive oxygen species and antimicrobial properties of cellulose fabric modified by 3,3′,4,4′-benzophenone tetracarboxylic acid. ACS Appl Mater Interfaces 7:27918–27924CrossRef

Klaning UK, Sehested K, Holcman J (1985) Standard Gibbs energy of formation of the hydroxyl radical in aqueous solution. Rate constants for the reaction chlorite (ClO₂−)⁺ ozone.dblarw. ozone(1-) + chlorine dioxide. J Phys Chem 89:760–763CrossRef

Liu N, Sun G (2011) Photoinduced decolorization of 2,6-dichloroindophenol by 2-anthraquinone sulfonate treated nylon. ACS Appl Mater Interfaces 3:1221–1227CrossRef

Liu K, Zhang X, Yan K (2017) Low-temperature bleaching of cotton knitting fabric with H₂O₂/PAG system. Cellulose 24:1555–1561CrossRef

Liu K, Zhang X, Yan K (2018) Development of o-phthalic anhydride as a low-temperature activator in H₂O₂ bleaching system for cotton fabric. Cellulose 25:859–867CrossRef

Liu K, Yan K, Sun G (2019) Mechanism of H₂O₂/bleach activators and related factors. Cellulose 26:2743–2757CrossRef

McCall ER, Jurgens JF (1951) Chemical composition of cotton. Text Res J 21:19–21CrossRef

Peng M, Wu S, Du J, Sun C, Zhou C, Xu C, Hu X (2018) Establishing a rapid pad-steam process for bleaching of cotton fabric with an activated peroxide system. ACS Sustain Chem Eng 6:8599–8603CrossRef

Qin X, Song M, Ma H, Yin C, Zhong Y, Zhang L, Mao Z (2012) Low-temperature bleaching of cotton fabric with a binuclear manganese complex of 1,4,7-trimethyl-1,4,7-triazacyclononane as catalyst for hydrogen peroxide. Color Technol 128:410–415CrossRef

Shafie AE, Fouda MMG, Hashem M (2009) One-step process for bio-scouring and peracetic acid bleaching of cotton fabric. Carbohyd Polym 78:302–308CrossRef

Si F, Yan K, Zhang X (2014) Study on H₂O₂/TAED and H₂O₂/TBCC bleaching mechanism related to hydroxyl radical with a fluorescent probe. Carbohyd Polym 103:581–586CrossRef

Si Y et al (2018) Daylight-driven rechargeable antibacterial and antiviral nanofibrous membranes for bioprotective applications. Sci Adv 4:1–12

Tang P, Sun G (2017) Generation of hydroxyl radicals and effective whitening of cotton fabrics by H₂O₂ under UVB irradiation. Carbohyd Polym 160:153–162CrossRef

Thompson KM, Griffith WP, Spiro M (1993) Mechanism of bleaching by peroxides. Part 1. Kinetics of bleaching of phenolphthalein by hydrogen peroxide at high pH. J Chem Soc Faraday Trans 89:1203–1209CrossRef

Topalovic T, Nierstrasz VA, Bautista L, Jocic D, Navarro A, Warmoeskerken MMCG (2007) Analysis of the effects of catalytic bleaching on cotton. Cellulose 14:385–400CrossRef

Yang H, Wei H, Hu L, Liu H, Yang L, Au C, Yi B (2016) Mechanism for the photocatalytic transformation of s-triazine herbicides by OH radicals over TiO₂. Chem Eng J 300:209–216CrossRef

Yatagai M, Zeronian SH (1994) Effect of ultraviolet light and heat on the properties of cotton cellulose. Cellulose 1:205–214CrossRef

Zeronian SH, Inglesby MK (1995) Bleaching of cellulose by hydrogen peroxide. Cellulose 2:265–272CrossRef

Titel: An environmentally friendly bleaching process for cotton fabrics: mechanism and application of UV/H2O2 system
verfasst von: Nanfang Wang
Peixin Tang
Cunyi Zhao
Zheng Zhang
Gang Sun
Publikationsdatum: 07.11.2019
Verlag: Springer Netherlands
Erschienen in: Cellulose / Ausgabe 2/2020
Print ISSN: 0969-0239
Elektronische ISSN: 1572-882X
DOI: https://doi.org/10.1007/s10570-019-02812-3

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