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Hydrothermal synthesis and in-situ polymerization of PPy@MnCo₂O₄ nanohybrids for fast visible-light photocatalytic degradation of ibuprofen

Muhammad Aadil, M. Abdel Rafea, Magdi E. A. Zaki, Mohamed I. Attia, Mohamed R. El‐Aassar, ‏Abdullah K. Alanazi, Sonia Zulfiqar, Sidra Mubeen

2025Journal of Water Process Engineering15 citationsDOI

Topics & Concepts

PolymerizationChemical engineeringPhotocatalysisCatalysisSpecific surface areaMaterials scienceAdsorptionHydrothermal circulationPorosityDegradation (telecommunications)PhotoluminescenceElectrochemistrySpinelChemistryBET theoryHydrothermal synthesisDissociation (chemistry)PhotochemistryMineralization (soil science)Interfacial polymerizationConductivityRadicalPhotodegradationDecompositionVisible spectrumChemical stabilityNanomaterialsPolymerNanoparticleNanocagesAdvanced Photocatalysis TechniquesAdvanced oxidation water treatmentPharmaceutical and Antibiotic Environmental Impacts
Hydrothermal synthesis and in-situ polymerization of PPy@MnCo₂O₄ nanohybrids for fast visible-light photocatalytic degradation of ibuprofen | Litcius