Abstract
A family of titania derived nanocomposites synthesized via sol-gel and hydrothermal routes exhibit excellent performance for the photocatalytic degradation of two important exemplar water pollutants, oxytetracycline and Congo Red. Low loadings of Co3O4 nanoparticles dispersed over the surfaces of anatase TiO2 confer visible light photoactivity for the aqueous phase decomposition of organics through the resulting heterojunction and reduced band gap. Subsequent modification of these Co3O4/TiO2 composites by trace amounts of graphene oxide nanosheets in the presence of a diamine linker further promotes both oxytetracycline and Congo Red photodegradation under simulated solar and visible irradiation, through a combination of enhanced photoresponse and consequent radical generation. Radical quenching and fluorescence experiments implicate holes and hydroxyl radicals as the respective primary and secondary active species responsible for oxidative photodegradation of pollutants.
Highlights
Materials and methods Graphite powder (>20μm), Cobalt nitrate (Co(NO3)2.6H2O)(98%), titanium (IV) isopropoxide (TIP)(97%), anatase titanium dioxide (99.7%), cobalt oxide, oxytetracyline (OCT, >95%), Congo Red (CR), terephthalic acid (98%), sodium sulfate (≥ 99%) and Indium tin oxide (ITO) coated glass slides were purchased from Sigma Aldrich
(b) 10 min (c) 20 min SI-7 (d) 30 min (e) 90 min SI-8 (a) Congo Red (CR) initial min (b) 10 min (c) 20 min
Summary
Congo Red Wan-Kuen Joa, Santosh Kumar,b Mark. Karthikeyan a,b* aDepartment of Environmental Engineering, Kyungpook National University, Daegu 702-
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