Overview
ABSTRACT
Alanates, inorganic compounds formed by an anionic complex Al-H and a metal cation, contain large quantities of hydrogen. At this time, the sodium tetra-alanate,, NaAlH4, is the most promising compound for the reversible storage of hydrogen under normal pressure and temperature conditions. It absorbs 5.6 wt. % of hydrogen with a high volumetric density (70 kgH/m3), a high compactness (kgH/m3 70) and fast hydrogenation kinetics in the presence of titanium-based dopants.
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Read the articleAUTHORS
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Junxian ZHANG: Doctor Post-doc at CNRS, Rare Earth Metallurgical Chemistry Team, Institut de chimie et des matériaux Paris-Est, CNRS-UPE, UMR7182
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Fermin CUEVAS: PhD CNRS Research Fellow, Rare Earth Metallurgical Chemistry Team, Institut de chimie et des matériaux Paris-Est, CNRS-UPE, UMR7182
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Annick PERCHERON-GUÉGAN: PhD CNRS Research Director, Rare Earth Metallurgical Chemistry Team, Institut de chimie et des matériaux Paris-Est, CNRS-UPE, UMR7182
INTRODUCTION
Field: Green chemistry, energy
Degree of technology diffusion: Emergence | Growth | Maturity
Technologies involved :
Applications: Hydrogen storage, fuel cells
Main French players: CNRS
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Contact : [email protected] , http://www.icmpe.cnrs.fr/spip.php?article628〈=fr
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Reversible hydrogen storage in alanates
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