Journal ArticleDOI
Thermodynamic and kinetic investigations of the hydrogen storage in the Li–Mg–N–H system
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In this paper, the authors measured the reaction heat of the mixture of Mg(NH2)2 and 2LiH in a differential scanning calorimeter, and the overall reaction heat measured in the differential scan was 44.1 kJ/mol H 2, while the heat-of-desorption of H2 in the higher pressure plateau was 38.9kJ/m H 2.About:
This article is published in Journal of Alloys and Compounds.The article was published on 2005-08-02. It has received 255 citations till now. The article focuses on the topics: Hydrogen storage & Hydrogen.read more
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Advanced Materials for Energy Storage
TL;DR: This Review introduces several typical energy storage systems, including thermal, mechanical, electromagnetic, hydrogen, and electrochemical energy storage, and the current status of high-performance hydrogen storage materials for on-board applications and electrochemicals for lithium-ion batteries and supercapacitors.
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Complex hydrides for hydrogen storage.
TL;DR: This poster presents a probabilistic simulation of the response of the immune system to EMT and shows clear patterns of decline in the number of immune checkpoints during EMT treatment.
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High capacity hydrogen storage materials: attributes for automotive applications and techniques for materials discovery
TL;DR: A practical introduction to the field of hydrogen storage materials research is provided, with an emphasis on the properties necessary for a viable storage material, the computational and experimental techniques commonly employed in determining these attributes, and the classes of materials being pursued as candidate storage compounds.
Journal ArticleDOI
Materials for hydrogen-based energy storage – past, recent progress and future outlook
Michael Hirscher,Volodymyr A. Yartys,Marcello Baricco,José M. Bellosta von Colbe,Didier Blanchard,Robert C. Bowman,Darren P. Broom,Craig E. Buckley,Fei Chang,Ping Chen,Young Whan Cho,Jean-Claude Crivello,Fermin Cuevas,William I. F. David,William I. F. David,Petra E. de Jongh,Roman V. Denys,Martin Dornheim,Michael Felderhoff,Yaroslav Filinchuk,George E. Froudakis,David M. Grant,Evan Gray,Bjørn C. Hauback,Teng He,Terry D. Humphries,Torben R. Jensen,Sangryun Kim,Yoshitsugu Kojima,Michel Latroche,Hai Wen Li,Mykhaylo Lototskyy,Joshua W. Makepeace,Kasper T. Møller,Lubna Naheed,Peter Ngene,Dag Noréus,Magnus Moe Nygård,Shin Ichi Orimo,Mark Paskevicius,Luca Pasquini,Dorthe Bomholdt Ravnsbæk,M. Veronica Sofianos,Terrence J. Udovic,Tejs Vegge,Gavin S. Walker,Colin J. Webb,Claudia Weidenthaler,Claudia Zlotea +48 more
TL;DR: In this article, the authors present a review of the development of hydrogen storage materials, methods and techniques, including electrochemical and thermal storage systems, and an outlook for future prospects and research on hydrogen-based energy storage.
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Hydrogen storage: the remaining scientific and technological challenges
TL;DR: The combination of different storage systems may provide a possible solution to store sufficiently high amounts of hydrogen in order to fulfil the requirements for a broad introduction of automotive fuel cell powertrains to the market.
References
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Journal ArticleDOI
Hydrogen Storage in Microporous Metal-Organic Frameworks
Nathaniel L. Rosi,Juergen Eckert,Mohamed Eddaoudi,David T. Vodak,Jaheon Kim,Michael O'Keeffe,Omar M. Yaghi +6 more
TL;DR: Inelastic neutron scattering spectroscopy of the rotational transitions of the adsorbed hydrogen molecules indicates the presence of two well-defined binding sites (termed I and II), which are associated with hydrogen binding to zinc and the BDC linker, respectively.
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Storage of hydrogen in single-walled carbon nanotubes
A. C. Dillon,Kim M. Jones,T. A. Bekkedahl,Ching-Hwa Kiang,Donald S. Bethune,Michael J. Heben +5 more
TL;DR: In this article, a gas can condense to high density inside narrow, single-walled nanotubes (SWNTs) under conditions that do not induce adsorption within a standard mesoporous activated carbon.
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Interaction of hydrogen with metal nitrides and imides
TL;DR: It is suggested that more investigations are needed, as the metal–N–H system could prove to be a promising route to reversible hydrogen storage, as this compound can also reversibly take up large amounts of hydrogen.
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Metal-doped sodium aluminium hydrides as potential new hydrogen storage materials
TL;DR: In this article, Bogdanovic et al. investigated the reversible dissociation of metal-doped NaAlH 4 as a hydrogen (or heat) storage system, and the experimentally determined enthalpies for the first (3.7 wt% of H) and the second dissociation step of Ti-dope NaAl H 4 ( 3.0 wt % H) of 37 and 47 kJ/mol are in accordance with low and medium temperature reversible metal hydride systems.
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(LiNH2-MgH2): a viable hydrogen storage system
TL;DR: In this paper, a new storage material has been developed, which is from the partial substitution of lithium by magnesium in the nitride/imide system, with a plateau pressure of about 30bar and 200°C with a H capacity of 4.5% and possibly higher.