Enhanced Stability of Li-RHC Embedded in an Adaptive TPX™ Polymer Scaffold

Enhanced Stability of Li-RHC Embedded in an Adaptive TPX™ Polymer Scaffold

In this work, the possibility of creating a polymer-based adaptive scaffold for improving the hydrogen storage properties of the system 2LiH+MgB<sub>2</sub>+7.5(3TiCl<sub>3</sub>&#183;AlCl<sub>3</sub>) was studied. Because of its chemical stability toward the...

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Bibliographic Details
Main Authors: Thi Thu Le, Claudio Pistidda, Clarissa Abetz, Prokopios Georgopanos, Sebastiano Garroni, Giovanni Capurso, Chiara Milanese, Julián Puszkiel, Martin Dornheim, Volker Abetz, Thomas Klassen
Format: Article
Language:English
Published: MDPI AG 2020-02-01
Series:Materials
Subjects:
confinement
confined complex hydrides
carbon-based polymer
hydrogen storage
Online Access:https://www.mdpi.com/1996-1944/13/4/991
Description
Summary:In this work, the possibility of creating a polymer-based adaptive scaffold for improving the hydrogen storage properties of the system 2LiH+MgB<sub>2</sub>+7.5(3TiCl<sub>3</sub>&#183;AlCl<sub>3</sub>) was studied. Because of its chemical stability toward the hydrogen storage material, poly(4-methyl-1-pentene) or in-short TPX<sup>TM</sup> was chosen as the candidate for the scaffolding structure. The composite system was obtained after ball milling of 2LiH+MgB<sub>2</sub>+7.5(3TiCl<sub>3</sub>&#183;AlCl<sub>3</sub>) and a solution of TPX<sup>TM</sup> in cyclohexane. The investigations carried out over the span of ten hydrogenation/de-hydrogenation cycles indicate that the material containing TPX<sup>TM</sup> possesses a higher degree of hydrogen storage stability.
ISSN:1996-1944

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