Comprehensive review of structured binary Ni-NiO catalyst: Synthesis, characterization and applications

Metal-metal oxide composite materials have been garnering wide attention due to their extraordinary properties and applications in several areas. Ni-NiO is an important composite; its synthesis and properties have been of increased interest with regards to prominent applications in many fields. This...

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Bibliographic Details
Published in:Renewable & sustainable energy reviews 2019-10, Vol.114, p.109326, Article 109326
Main Authors: Alnarabiji, Mohamad Sahban, Tantawi, Omar, Ramli, Anita, Mohd Zabidi, Noor Asmawati, Ghanem, Ouahid Ben, Abdullah, Bawadi
Format: Article
Language:English
Subjects:
Formation mechanisms
Gasification
Hydrogen
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Nickel
Nickel oxide
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Summary:Metal-metal oxide composite materials have been garnering wide attention due to their extraordinary properties and applications in several areas. Ni-NiO is an important composite; its synthesis and properties have been of increased interest with regards to prominent applications in many fields. This article provides for the first time a comprehensive review of the cutting-edge research activities that focus on rational synthesis, characterization techniques, novel properties and applications of the Ni-NiO composite. While the formation mechanism of this composite is still vague, much attention has been given to the reported formation mechanisms using different precursors in one-pot synthesis, and thus, a formation mechanism and green synthesis route have been proposed. All the applications of the Ni-NiO composite in different fields including magnetic materials, ion-lithium battery, supercapacitors and catalytic activities are also emphasized. It was proved from the available literature that metallic Ni was obtained into the skelton of NiO by the reduction process during the calcination through the production of adventitious H2 via the gasification-like process. •The presence of rich source of carbon is an essential to obtain Ni-NiO composite.•NiO was reduced partially to Ni through gasification-like process during calcination.•Ni-NiO composite showed an efficient and excellent properties and catalytic activity.•Still a limited number of studies have been reported on utilizing Ni-NiO composite.•The variety in Ni-NiO composite morphologies is limited.
ISSN:1364-0321
1879-0690
DOI:10.1016/j.rser.2019.109326