1. Removal of malachite green from water: Comparison of adsorption in a residue-derived AC versus photocatalytic oxidation with TiO2 and study of the adsorption-photocatalysis synergy.
- Author
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Boumad, S., Cano-Casanova, L., Román-Martínez, M.C., Bouchenafa-Saib, N., and Lillo-Ródenas, M.A.
- Subjects
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MALACHITE green , *PHOTOCATALYTIC oxidation , *PHOTOCATALYSIS , *PHOTODEGRADATION , *TITANIUM dioxide , *PHOTOOXIDATION , *RADICAL anions , *ORGANIC compounds - Abstract
The literature rarely compiles studies devoted to the removal of pollutants in aqueous media comparing adsorption and photocatalytic degradation, and does not pay enough attention to the analysis of combined adsorption-photocatalytic oxidation processes. In the present manuscript, the removal of malachite green (MG) from aqueous solutions has been investigated in three different sustainable scenarios: i) adsorption on activated carbon (AC) derived from a residue, luffa cylindrica, ii) photocatalytic oxidation under simulated solar light using titanium dioxide (TP) and iii) combined adsorption-photocatalytic oxidation using TP-AC (70/30 wt./wt.) under simulated solar light. The study has revealed that in the three scenarios and studied conditions, the total removal of this endocrine-disrupting dye from the solution takes place in the assayed time, 2 h, in some cases just in a few minutes. MG adsorption in the AC is a very fast and efficient removal method. MG photocatalytic oxidation with TP also occurs efficiently, although the oxidized MG is not totally mineralized. MG removal using the TP-AC composite under simulated solar light occurs only slightly faster to the MG adsorption in the AC, being adsorption the dominating MG removal mechanism for TP-AC. Thus, more than 90% of the removed MG with TP-AC under simulated solar light is adsorbed in this carbon-containing composite. The obtained results highlight the interest in adsorption, being the selection of the most suitable removal method dependent on several factors (i.e., the cost of the AC regeneration, for adsorption, or the toxicity of the intermediate oxidation species, for photooxidation). Paying attention to MG photooxidation with TiO 2 , comparison of two working photodegradation schemes shows that the direct photodegradation of MG from solution, avoiding any initial dark equilibrium period, is more efficient from a time perspective. The use of scavengers has proved that MG photodegradation occurs via an oxidation mechanism dominated by superoxide anion radicals. [Display omitted] • Removal of organic compounds from water by low-cost sustainable technologies. • MG adsorption on a Luffa-derived AC with a surface >1000 m2/g is very efficient. • TiO 2 photooxidation is efficient, but not complete MG mineralization occurs. • Superoxide anion radicals dominate the MG photooxidation by TiO 2 and solar light. • In TiO 2 /AC composites, adsorption dominates the MG removal under solar light. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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