F. A. Jumeri scite author profile

A magnetically separable ZnFe2O4-reduced graphene oxide (rGO) nano-composite was synthesised via a microwave method. Field emission scanning electron microscopy images of the nano-composite showed a uniform dispersion of nanoparticles on the rGO sheets. The performance of the nano-composite in wastewater treatment was assessed by observing the decomposition of methylene blue. The nano-composite showed excellent bifunctionality, i.e. adsorption and photocatalytic degradation of methylene blue, for up to five cycles of water treatment when illuminated with light from a halogen bulb. In contrast, water treatment with the nano-composite without illumination and the illuminated rGO, with no decoration of nanoparticles, diminished significantly after the first treatment. The reclamation of the ZnFe2O4-rGO nano-composite from treated water could be easily achieved by applying an external magnetic field.

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Dual functional reduced graphene oxide as photoanode and counter electrode in dye-sensitized solar cells and its exceptional efficiency enhancement

Jumeri

Lim

Zainal

et al. 2015

Journal of Power Sources

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Modification of polypropylene filter with metal oxide and reduced graphene oxide for water treatment

Ariffin

Lim

Jumeri

et al. 2014

Ceramics International

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Titanium dioxide-reduced graphene oxide thin film for photoelectrochemical water splitting

Jumeri

Lim

Zainal

et al. 2014

Ceramics International

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The incorporation of reduced graphene oxide (rGO) on a TiO2 surface had been demonstrated to be an effective method to enhance the photoelectrochemical performance. A TiO2-rGO thin film was fabricated by depositing TiO2 on ITO using an aerosol-assisted chemical vapor deposition method and GO dip-coating, followed by thermal reduction of the GO layer. The fabricated thin film was characterized using XRD and FESEM techniques. The photoelectrotrochemical performance of the TiO2-rGO thin film was investigated under the illumination of simulated solar light. The TiO2-rGO showed a higher photocurrent response (80.2 µA) than bare TiO2 (13.1 µA). This improved photoelectrochemical performance was due to the rGO, which increased the electron transport and thereby minimized the charge recombination process. The TiO2-rGO thin film showed good stability, even after being subjected to 1000 voltammetric cycles, and the rGO sheets remained adhered to the surface of the TiO2 thin film.

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F. A. Jumeri

Microwave synthesis of magnetically separable ZnFe2O4-reduced graphene oxide for wastewater treatment

Dual functional reduced graphene oxide as photoanode and counter electrode in dye-sensitized solar cells and its exceptional efficiency enhancement

Modification of polypropylene filter with metal oxide and reduced graphene oxide for water treatment

Titanium dioxide-reduced graphene oxide thin film for photoelectrochemical water splitting

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