Simultaneous hydrogen production and ibuprofen degradation by green synthesized Cu2O/TNTAs photoanode

“…Due to its classification as a hazardous contaminant, significant endeavors have been launched by environmental and scientific organizations to eliminate IBU from water [1,8]. In recent times, the implementation of adsorption alongside advanced oxidation as effective methods for removing organic chemicals from water has been highly promoted [13,14]. Advanced oxidation techniques, including photocatalytic, electrochemical, sonochemical, and photo-Fenton decomposition, were recently classified as highly successful approaches for decontaminating organic compounds [15][16][17].…”

Insight into the Catalytic Performance of a Zinc-Pillared Curcumin/Bentonite Composite for Enhanced Oxidation of Ibuprofen Residuals into Environmental Products: The Pathway and Toxicity

“…Due to its classification as a hazardous contaminant, significant endeavors have been launched by environmental and scientific organizations to eliminate IBU from water [1,8]. In recent times, the implementation of adsorption alongside advanced oxidation as effective methods for removing organic chemicals from water has been highly promoted [13,14]. Advanced oxidation techniques, including photocatalytic, electrochemical, sonochemical, and photo-Fenton decomposition, were recently classified as highly successful approaches for decontaminating organic compounds [15][16][17].…”

Insight into the Catalytic Performance of a Zinc-Pillared Curcumin/Bentonite Composite for Enhanced Oxidation of Ibuprofen Residuals into Environmental Products: The Pathway and Toxicity

“…Current literature exploring PEC for IBP degradation are limited and have only presented incremental research findings mainly focussing on material development or enhancing the degradation efficiencies of IBP [55][56][57][58][59]. A gap still exists in the area of degradation pathway identification from a chemistry and environmental fate viewpoint and improving technology readiness from the engineering viewpoint.…”

Solar Light-Driven Simultaneous Pharmaceutical Pollutant Degradation and Green Hydrogen Production Using a Mesoporous Nanoscale Wo3/Bivo4 Heterostructure Photoanode

“…Conventional municipal wastewater treatment plants do not have the ability to completely remove these micro-pollutants (13,14). The removal efficiency of antibiotics in wastewater treatment plants is reported to be from 12% to 43%, which is very low (15). Given the dangers of the presence of these antibiotics in the ecosystem, there is a need to develop effective and efficient treatment processes to adsorb these compounds from contaminated water and minimise their environmental hazards (16,17).…”

Evaluation of the efficacy of Fe ₂ O ₃ magnetised kaolin: simultaneous removal of ceftriaxone and cefixime from aqueous media