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Chulaluck Pratthana and Kondo-Francois Aguey-Zinsou
LiAlH4 and NaAlH4 are considered to be promising hydrogen storage materials due to their high hydrogen density. However, their practical use is hampered by the lack of hydrogen reversibility along with poor kinetics. Nanosizing is an effective strategy t...
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Alev Taskin Gumus, A. Yesim Yayla, Erkan Çelik and Aytac Yildiz
In this paper, we aim to select the most appropriate Hydrogen Energy Storage (HES) method for Turkey from among the alternatives of tank, metal hydride and chemical storage, which are determined based on expert opinions and literature review. Thus, we pr...
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Robert A. Varin, Leszek Zbroniec, Marek Polanski and Jerzy Bystrzycki
The recent advances on the effects of microstructural refinement and various nano-catalytic additives on the hydrogen storage properties of metal and complex hydrides obtained in the last few years in the allied laboratories at the University of Waterloo...
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Donald L. Anton, Christine J. Price and Joshua Gray
The destabilized complex hydride system composed of LiNH2:MgH2 (1:1 molar ratio) is one of the leading candidates of hydrogen storage with a reversible hydrogen storage capacity of 8.1 wt%. A low sorption enthalpy of ~32 kJ/mole H
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