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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
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).
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
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)
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
Fig. 6
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
Fig. 8
Decline rate of K/S for stained DTG20 treated fabric under sunlight.