Performance of Pristine versus Magnetized Orange Peels Biochar Adapted to Adsorptive Removal of Daunorubicin: Eco-Structuring, Kinetics and Equilibrium Studies

Abstract: Drugs and pharmaceuticals are an emergent class of aquatic contaminants. The existence of these pollutants in aquatic bodies is currently raising escalating concerns because of their negative impact on the ecosystem. This study investigated the efficacy of two sorbents derived from orange peels (OP) biochar (OPBC) for the removal of the antineoplastic drug daunorubicin (DNB) from pharmaceutical wastewater. The adsorbents included pristine (OPBC) and magnetite (Fe3O4)-impregnated (MAG-OPBC) biochars. Waste-deri… Show more

“…2e, the characteristic absorption peaks of Fe–O (558 cm −1 ), CO (1321 cm −1 ) and C–OH (1093 cm −1 ) appeared, indicating the successful loading of Fe 3 O 4 and VC. 28–31 Furthermore, in order to verify the penetration ability of microtargeted tissues, the mechanical properties of microneedles were evaluated. It can be observed from Fig.…”

A tumor microenvironment-responsive microneedle patch for chemodynamic therapy of oral squamous cell carcinoma

“…2e, the characteristic absorption peaks of Fe–O (558 cm −1 ), CO (1321 cm −1 ) and C–OH (1093 cm −1 ) appeared, indicating the successful loading of Fe 3 O 4 and VC. 28–31 Furthermore, in order to verify the penetration ability of microtargeted tissues, the mechanical properties of microneedles were evaluated. It can be observed from Fig.…”

A tumor microenvironment-responsive microneedle patch for chemodynamic therapy of oral squamous cell carcinoma

Turning waste avocado stones and montmorillonite into magnetite-supported nanocomposites for the depollution of methylene blue: adsorbent reusability and performance optimization

Magnetic nanocomposite of maize offal biomass for effective sequestration of Congo red and methyl orange dyes from contaminated water: modeling, kinetics and reusability