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Growth of binary anatase-rutile on phosphorylated graphene through strong P-O-Ti bonding affords a stable visible-light photocatalyst. | LitMetric

AI Article Synopsis

  • Titanium dioxide is a key photocatalyst used in water-cleaning technologies, particularly for sewage treatment, and researchers are exploring its combination with graphene to enhance its effectiveness.
  • This study developed two hybrid nanocomposites, GO@TiO and PGO@TiO, to investigate the interaction between titanium dioxide and graphene, revealing differences in their structure and photocatalytic abilities, particularly under thermal treatments.
  • The PGO@TiO-500 composite showed exceptional performance, nearly removing all methylene blue from water, due to stronger bonding and better stability achieved through surface engineering techniques.

Article Abstract

Titanium dioxide is an ubiquitous photocatalyst in water-cleaning technologies, being presently the most promising tools to resolve the global issue of sewage treatment. In this framework, titanium dioxide-graphene nanocomposites are discussed as promising visible-light activated photocatalysts but little is hitherto known about the surface and interface chemistry bridging the metal oxide and carbon phases. In an attempt to spotlight this overlooked issue, we herein designed two different hybrid nanocomposites through covalent grafting and growth of titanium dioxide clusters on graphene oxide and on phosphorylated graphene oxide, which affords GO@TiO and PGO@TiO, respectively. While anatase could be selectively harvested on the surface of GO@TiO, biphasic anatase-rutile nucleates could be obtained on PGO@TiO. Thermal annealing treatments improve the metal oxide crystallization and further remove oxygenated groups from the surface of graphene. The interfacial stability of these photocatalysts was also investigated under irradiation, with the graphene support being sensitive to the proximal presence of titanium dioxide. The resulting nanocomposites were also assessed for methylene blue removal through adsorption and photocatalysis. Regardless of their composition, superior photoactivity was noticed for the nanocomposites compared to commercially available degussa that display marginal visible-light photoactivity (11% removal). Within our study, PGO@TiO-500 stands as the most active catalyst, allowing nearly quantitative removal of the pollutant from water. The superior performance of PGO@TiO-500 can be explained by the highest stability reached through P-O-Ti bonding, its improved crystallinity, and the reduction of the graphene surface during thermal treatment. On a whole, this study provides a blueprint for comparing semiconducting metal oxide grown on tuneable surface-interfacial graphene environments and highlights the utility of surface-engineering graphene sheets to access efficient visible-light oxidation photocatalysts.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9038032PMC
http://dx.doi.org/10.1039/d1ra05275fDOI Listing

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