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Fast decolourization of Indigo Carmine and Crystal Violet in aqueous environments through micellar catalysis
Date issued
2019
Author(s)
Colbea, Claudiu
Velea, Andrei
Dinu, Bogdan
Mihailescu, Ana-Maria
DOI
10.1016/j.seppur.2018.08.052
Abstract
Herein we report the modulating effect of sodium dodecyl sulphate (SDS), hexadecyl-pyridinium chloride
(HDPC) and octylphenol ethoxylate (Triton X100) on the degradation of indigo carmine (IC) and crystal violet
(CV) in bicarbonate-activated peroxide (BAP) system. Upon the addition of surfactant/BAP “surfoxidant ”, the
decolourization degrees of both dyes were above 60% after 5 min, and the total organic carbon removal after
15 min varied within 44 –50%. While SDS has shown rather an inhibitory effect during the oxidation of CV,
HDPC and Triton promoted the oxidation of both CV and IC, particularly HDPC when a 10-fold increase of the
decolourization rate was obtained. This behaviour suggests the formation of active entities –kinetic micelles acting as nano-reactors by “enclosing ” reactants in small-sized aggregates with volumes ranging from 30 to 720 nm3.
(HDPC) and octylphenol ethoxylate (Triton X100) on the degradation of indigo carmine (IC) and crystal violet
(CV) in bicarbonate-activated peroxide (BAP) system. Upon the addition of surfactant/BAP “surfoxidant ”, the
decolourization degrees of both dyes were above 60% after 5 min, and the total organic carbon removal after
15 min varied within 44 –50%. While SDS has shown rather an inhibitory effect during the oxidation of CV,
HDPC and Triton promoted the oxidation of both CV and IC, particularly HDPC when a 10-fold increase of the
decolourization rate was obtained. This behaviour suggests the formation of active entities –kinetic micelles acting as nano-reactors by “enclosing ” reactants in small-sized aggregates with volumes ranging from 30 to 720 nm3.
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