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Fabric Treated with Dye Modified TiO2/Graphene Composite and its Photocatalytic and Self-Cleaning Properties Cover

Fabric Treated with Dye Modified TiO2/Graphene Composite and its Photocatalytic and Self-Cleaning Properties

Fibres & Textiles in Eastern Europe
Volume 30 (2022): Issue 5 (October 2022)
By: Yu-xin Wen,  Li-hong Bao,  Jia-wen Ling,  Guan-Fanglan,  Zhang Mei and  Nie-Jinmei  
Open Access
|Dec 2022

Figures & Tables

Fig. 1

Photocatalytic degradation efficiency of MB of finished fabrics treated with the padding method: (a) effect of the finishing agent ; (b) Photocatalytic cycling experiments of DTG20 finished fabric
Photocatalytic degradation efficiency of MB of finished fabrics treated with the padding method: (a) effect of the finishing agent ; (b) Photocatalytic cycling experiments of DTG20 finished fabric

Fig. 2

SEM images of fabrics: control cotton fabric(a), DTG20 fabrics treated by padding method prior(b), and after treating MB pollutant the 1st time(c) and the 5th time(d).
SEM images of fabrics: control cotton fabric(a), DTG20 fabrics treated by padding method prior(b), and after treating MB pollutant the 1st time(c) and the 5th time(d).

Fig. 3

Photocatalytic degradation efficiency of MB of finished fabrics treated with the coating method: (a) effect of the finishing agent ; (b) Photocatalytic cycling experiments of DTG20 finished fabric
Photocatalytic degradation efficiency of MB of finished fabrics treated with the coating method: (a) effect of the finishing agent ; (b) Photocatalytic cycling experiments of DTG20 finished fabric

Fig. 4

SEM images of fabrics treated with DTG20 by the coating method before (a) and after performing the photocatalytic experiment for the 1st time (b) and 5th time(c)
SEM images of fabrics treated with DTG20 by the coating method before (a) and after performing the photocatalytic experiment for the 1st time (b) and 5th time(c)

Fig. 5

Photocatalytic degradation efficiency of MB of finished fabrics treated with the compounding method: (a) effect of the finishing agent ; (b) Photocatalytic cycling experiments of DTG20 finished fabric
Photocatalytic degradation efficiency of MB of finished fabrics treated with the compounding method: (a) effect of the finishing agent ; (b) Photocatalytic cycling experiments of DTG20 finished fabric

Fig. 6

Photodegradation efficiency of MB by DTG20 finished fabircs treated with different methods: (a) under xenon lamp; (b) under visible light
Photodegradation efficiency of MB by DTG20 finished fabircs treated with different methods: (a) under xenon lamp; (b) under visible light

Fig. 7

K/S of DTG20 treated fabric (a) after performing photodegradation experiment (b) decline rate under xenon lamp irradiation
K/S of DTG20 treated fabric (a) after performing photodegradation experiment (b) decline rate under xenon lamp irradiation

Fig. 8

Decline rate of K/S for stained DTG20 treated fabric under sunlight.
Decline rate of K/S for stained DTG20 treated fabric under sunlight.
DOI: https://doi.org/10.2478/ftee-2022-0044 | Journal eISSN: 2300-7354 | Journal ISSN: 1230-3666
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Language: English
Page range: 53 - 59
Published on: Dec 30, 2022
Published by: Łukasiewicz Research Network, Institute of Biopolymers and Chemical Fibres
In partnership with: Paradigm Publishing Services
Publication frequency: Volume open
Keywords:
Dye modified titanium dioxide/graphene composite,
treatmeny method,
cotton fabric,
photocatalytic self-cleaning,
photocatalytic degradation
Related subjects:
Business and economics,
Business management,
Business informatics,
Process management,
Industrial chemistry,
Cellulose, paper and textiles,
Polymer science and technology,
Materials sciences,
Biomaterials and natural materials

© 2022 Yu-xin Wen, Li-hong Bao, Jia-wen Ling, Guan-Fanglan, Zhang Mei, Nie-Jinmei, published by Łukasiewicz Research Network, Institute of Biopolymers and Chemical Fibres
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

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