New Sustainable Approach for the Production of Fe3O4/Graphene Oxide-Activated Persulfate System for Dye Removal in Real Wastewater

Abstract: Persulfate (PS)-activated, iron-based heterogeneous catalysts have attracted significant attention as a potential advanced and sustainable water purification system. Herein, a novel Fe 3 O 4 impregnated graphene oxide (Fe 3 O 4 @GO)-activated persulfate system (Fe 3 O 4 @GO+K 2 S 2 O 8 ) was synthesized by following a sustainable protocol and was tested on real wastewater containing dye pollutants. In the presence of the PS-activated system, the degradation efficiency of Rhodamine B (RhB) was significantly inc… Show more

“…Moreover, competition between carbonaceous substances will increase for free radical scavengers and free radicals due to the non-selective reactivity of free radicals. In many studies, the same effect in dye concentration was observed (Salari et al 2009 ; Saputra et al 2013 ; Frontistis et al 2015 ; Pervez et al 2020 ).…”

“…The reasons for this are; firstly, it is suitable for the production of reactive species with the increase in PS, which provides the appropriate amount of reactive for the oxidation of contaminants, and it enables easy reaction with the catalyst. Secondly, excessive use of PS decreases the formation of both economic and sulfate radicals (Pervez et al 2020 ). In other words, the sulfate radical may react with each other and turn into S 2 O 8 2− , this may lead to a decrease in efficiency.…”

“…COD removal increased as the dye concentration increased. As far as investigated in the literature, it was stated that increasing dye concentration negatively affects removal efficiency (Salari et al 2009 ; Saputra et al 2013 ; Pervez et al 2020 ). In this study, the color removal efficiency decreases as the dye concentration increases for color removal, while the removal efficiency increases with the increase of dye concentration for COD removal.…”

“…In this study, the decrease in efficiency with increasing contaminant concentration also shows that PAC active surfaces reach saturation since PAC is used as an activator. Dye adsorption reduced the catalytic performance by interfering with the electron transfer process (Pervez et al 2020 ). Moreover, competition between carbonaceous substances will increase for free radical scavengers and free radicals due to the non-selective reactivity of free radicals.…”

“…0.1 N NaOH and 0.1 N H 2 SO 4 (Carlo Erba, 99% purity) were used for pH adjustment, and NaCI (Sigma Aldrich, 99.5% purity) was used to study the salt effect. The reason for choosing NaCI for salt effect studies is that it is an electrolyte used in the textile industry to increase the adsorption of dye to fibers (Pervez et al 2020 ).…”

Removal of Acid Yellow 17 from Textile Wastewater by Adsorption and Heterogeneous Persulfate Oxidation

“…Moreover, competition between carbonaceous substances will increase for free radical scavengers and free radicals due to the non-selective reactivity of free radicals. In many studies, the same effect in dye concentration was observed (Salari et al 2009 ; Saputra et al 2013 ; Frontistis et al 2015 ; Pervez et al 2020 ).…”

“…The reasons for this are; firstly, it is suitable for the production of reactive species with the increase in PS, which provides the appropriate amount of reactive for the oxidation of contaminants, and it enables easy reaction with the catalyst. Secondly, excessive use of PS decreases the formation of both economic and sulfate radicals (Pervez et al 2020 ). In other words, the sulfate radical may react with each other and turn into S 2 O 8 2− , this may lead to a decrease in efficiency.…”

“…COD removal increased as the dye concentration increased. As far as investigated in the literature, it was stated that increasing dye concentration negatively affects removal efficiency (Salari et al 2009 ; Saputra et al 2013 ; Pervez et al 2020 ). In this study, the color removal efficiency decreases as the dye concentration increases for color removal, while the removal efficiency increases with the increase of dye concentration for COD removal.…”

“…In this study, the decrease in efficiency with increasing contaminant concentration also shows that PAC active surfaces reach saturation since PAC is used as an activator. Dye adsorption reduced the catalytic performance by interfering with the electron transfer process (Pervez et al 2020 ). Moreover, competition between carbonaceous substances will increase for free radical scavengers and free radicals due to the non-selective reactivity of free radicals.…”

“…0.1 N NaOH and 0.1 N H 2 SO 4 (Carlo Erba, 99% purity) were used for pH adjustment, and NaCI (Sigma Aldrich, 99.5% purity) was used to study the salt effect. The reason for choosing NaCI for salt effect studies is that it is an electrolyte used in the textile industry to increase the adsorption of dye to fibers (Pervez et al 2020 ).…”

Removal of Acid Yellow 17 from Textile Wastewater by Adsorption and Heterogeneous Persulfate Oxidation

Synthesis of poly (vinylpyrrolidone)/Fe₃O₄@SiO₂ nanoporous catalyst by γ‐rays and evaluation their sono‐photo‐Fenton degradation of toluidine blue under magnetic field

Insights into the structures and properties of dyes in the Fenton catalytic process for treating wastewater effluent