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2008
Part 1 Introduction: Hydrogen storage technologies Hydrogen futures: Emerging technologies for hydrogen storage and transport Hydrogen containment materials Solid-state hydrogen storage system design. Part 2 Analysing hydrogen interactions: Structural characterisation of hydride materials Neutron scattering techniques for analysing solid-state hydrogen
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Part 1 Introduction: Hydrogen storage technologies Hydrogen futures: Emerging technologies for hydrogen storage and transport Hydrogen containment materials Solid-state hydrogen storage system design. Part 2 Analysing hydrogen interactions: Structural characterisation of hydride materials Neutron scattering techniques for analysing solid-state hydrogen
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A study of the LiNH2–MgH2 system for solid state hydrogen storage
Journal of Alloys and Compounds, 2008The influence of different high energy milling times and of the addition of catalysts such as Nb2O5, TiCl3 and graphite on the hydrogen absorption/desorption (AID) kinetics of a mixture of 2LiNH(2) + 1.1MgH(2) has been studied in the temperature range 220-240 degrees C.
S. BARISON +6 more
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Solid-state hydrogen storage goes electric
ScienceElectrochemistry enables reversible storage and release of hydrogen gas in a metal ...
Ryan, O'Hayre, Sossina M, Haile
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Solid State Materials for Hydrogen Storage
1987This paper seeks to review the hydride/hydrogen technology and to describe the work being done in our laboratory for the development of rare earth pentanickelide (RNi5) type solid state materials for hydrogen storage. To start with a brief review of the basic theme for solid state storage mode of hydrogen has been given.
K. Ramakrishna +3 more
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Tailoring the Properties of Ammine Metal Borohydrides for Solid‐State Hydrogen Storage
ChemSusChem, 2015AbstractA series of halide‐free ammine manganese borohydrides, Mn(BH4)2⋅nNH3, n=1, 2, 3, and 6, a new bimetallic compound Li2Mn(BH4)4⋅6NH3, and the first ammine metal borohydride solid solution Mg1−xMnx(BH4)2⋅6NH3 are presented. Four new crystal structures have been determined by synchrotron radiation powder X‐ray diffraction and the thermal ...
Jepsen, Lars H +4 more
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Solid-state hydrogen storage in Hydralloy–graphite composites
Journal of Power Sources, 2013Abstract Hydrogen-based power systems require safe, efficient and robust hydrogen storage solutions. In this regard, metal hydrides become increasingly important because of their extremely high volumetric hydrogen capacity and their moderate operation pressures.
Carsten Pohlmann +4 more
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Boosting Hydrogen Storage Performances of Solid-State Materials
2020The term “energetic materials” are a class of material, which can release stored molecular chemical energy via external stimulations or internal modifications. We aim to take advantage of these opportunities by bringing some logical ideas onto/into the surface of hydrogen storage materials.
Ali Salehabadi +4 more
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Advancements in Solid-State Hydrogen Storage: A Review on the Glass Microspheres
LangmuirGlass microspheres, with their unique internal structure and chemical stability, offer a promising solution for the challenges of hydrogen storage and transmission, potentially advancing the utility of hydrogen as a safe and efficient energy source.
Jingmin Zhang +3 more
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Recent Advances in Solid-State Hydrogen Storage Materials
SPE Annual Caspian Technical Conference and ExhibitionAbstract The transition to a sustainable hydrogen economy demands safe, efficient, and compact hydrogen storage solutions. Conventional storage methods like high-pressure tanks and liquid hydrogen come with drawbacks, including significant energy consumption and high resource costs.
D. Otegen +3 more
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