Article ID Journal Published Year Pages File Type
1528693 Materials Science and Engineering: B 2014 7 Pages PDF
Abstract

•β-Bi2O3-NiO/Ni composites were prepared via one-step solution combustion method.•The materials had excellent visible light absorption ability and narrow band gaps.•Ni may show a plasmonic property and increase the visible light absorption.•The photocatalytic mechanism of the β-Bi2O3-NiO/Ni composites was proposed.•The as-obtained samples could be recycled easily by magnetic separation.

A series of novel β-Bi2O3-NiO/Ni heterojunctions were synthesized via one-step solution combustion method and characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), UV–vis spectroscopy and terephthalic acid (TA) fluorescence. The obtained NiO/Ni samples showed visible light absorbance ability and had narrow band gap of ca. 2.20 eV. The coupling of β-Bi2O3 with NiO/Ni promoted the visible light catalytic performance. The enhanced activity could be ascribed to the increase of separation efficiency of electrons and holes and the existence of metallic Ni, which might show a plasmonic effect and could increase the light absorption ability. The scavengers’ tests demonstrated that hydroxyl radical and holes species played a major role for the methyl orange degradation. Furthermore, the as-obtained samples had magnetic properties and could be recycled easily by magnetic separation from the reaction system. Finally, the mechanism of the photocatalytic reaction over β-Bi2O3-NiO/Ni composites was proposed.

Graphical abstractA series of novel β-Bi2O3-NiO/Ni composites were synthesized via one-step solution combustion method. The coupling of β-Bi2O3 with NiO/Ni promoted the catalytic activity under visible light irradiation, which can be ascribed to the increase of separation efficiency of electrons and holes over β-Bi2O3-NiO and the existence of metallic Ni.Figure optionsDownload full-size imageDownload as PowerPoint slide

Related Topics
Physical Sciences and Engineering Materials Science Electronic, Optical and Magnetic Materials
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