Review on the effect of metal oxides as surface coatings on hydrogen storage properties of porous and non-porous materials

In recent years, ways to modify the thermodynamic and kinetic properties of functional materials for energy storage have gained an immense interest. One way is through formation of composites by combining two or more compatible materials in the hopes of enhancing properties and superior performance....

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Veröffentlicht in:	Chemical papers 2021-06, Vol.75 (6), p.2237-2251
Hauptverfasser:	Somo, Thabang Ronny, Mabokela, Tumiso Eminence, Teffu, Daniel Malesela, Sekgobela, Tshepo Kgokane, Hato, Mpitloane Joseph, Modibane, Kwena Desmond
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Sprache:	eng
Schlagworte:	Biochemistry Biotechnology Chemistry Chemistry and Materials Science Chemistry/Food Science Coatings Electrical resistivity Electrochemical analysis Energy storage Functional materials Halides Hydrogen storage Industrial Chemistry/Chemical Engineering Materials Science Medicinal Chemistry Metal halides Metal oxides Performance enhancement Porous materials Review Structural stability Transition metals
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creator	Somo, Thabang Ronny Mabokela, Tumiso Eminence Teffu, Daniel Malesela Sekgobela, Tshepo Kgokane Hato, Mpitloane Joseph Modibane, Kwena Desmond
description	In recent years, ways to modify the thermodynamic and kinetic properties of functional materials for energy storage have gained an immense interest. One way is through formation of composites by combining two or more compatible materials in the hopes of enhancing properties and superior performance. Surface modification of energy storage materials by coating with transition metals, metal oxides, metal halides and carbon materials has also been exploited with great success. Metal oxides have shown great potential as coating candidates due to their high electric conductivity, ability to enhance structural stability and good electrochemical performance when compared to majority of other surface modifications. In this regard, we review recent advances and various aspects in relation to performance enhancement effects of different metal oxides that are used as coatings on materials for hydrogen adsorption/absorption properties. This review further compares the compatibility of metal oxides on porous and non-porous energy storage materials. Fundamental relationships and the state-of-the art in the prediction of properties and experimental observations are outlined and structure–property-relationships are also discussed. Graphic abstract
doi_str_mv	10.1007/s11696-020-01466-x
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Fundamental relationships and the state-of-the art in the prediction of properties and experimental observations are outlined and structure–property-relationships are also discussed. 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subjects	Biochemistry Biotechnology Chemistry Chemistry and Materials Science Chemistry/Food Science Coatings Electrical resistivity Electrochemical analysis Energy storage Functional materials Halides Hydrogen storage Industrial Chemistry/Chemical Engineering Materials Science Medicinal Chemistry Metal halides Metal oxides Performance enhancement Porous materials Review Structural stability Transition metals
title	Review on the effect of metal oxides as surface coatings on hydrogen storage properties of porous and non-porous materials
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