Microwave‐assisted synthesis of MgH2 nanoparticles for hydrogen storage applications

ABSTRACT: Magnesium’s high storage capacity, with a theoretical value of about 7.6 wt.%, makes it a via- ble candidate for hydrogen storage. However, slow kinetics and strong thermodynamic stability lead to a rather high desorption temperature, usually above 350 °C. It has been demonstrated that nan...

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Autores:: Aguirre Ocampo, Robinson
Arias Velandia, Julián
Lenis Rodas, Julián Andrés
Bolívar Osorio, Francisco Javier
Echeverría Echeverría, Félix
Correa, Esteban
Zuleta Gil, Alejandro Alberto
Bello, Sindy
Arrieta, Carlos

Tipo de recurso:: Article of investigation

Fecha de publicación:: 2025

Institución:: Universidad de Antioquia

Repositorio:: Repositorio UdeA

Idioma:: eng

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Summary:	ABSTRACT: Magnesium’s high storage capacity, with a theoretical value of about 7.6 wt.%, makes it a via- ble candidate for hydrogen storage. However, slow kinetics and strong thermodynamic stability lead to a rather high desorption temperature, usually above 350 °C. It has been demonstrated that nanosizing magnesium-based materials is a successful strategy for simultaneously improving the kinetic and ther- modynamic characteristics of MgH2 during hydrogen absorption and desorption. MgH2 nanoparticles were obtained by microwave assisted synthesis. To the best of our knowledge, synthesis of MgH2 nanoparticles by this method has not been reported. It was possible to produce MgH2 nanoparticles smaller than 20 nm. MgO and Mg(OH)2 were also present in the produced nanoparticles, although these compounds may enhance the processes involved in the release and absorption of hydrogen.

Microwave‐assisted synthesis of MgH2 nanoparticles for hydrogen storage applications

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