J
Jacques Huot
Researcher at Université du Québec à Trois-Rivières
Publications - 88
Citations - 7043
Jacques Huot is an academic researcher from Université du Québec à Trois-Rivières. The author has contributed to research in topics: Hydrogen & Hydrogen storage. The author has an hindex of 37, co-authored 73 publications receiving 6080 citations. Previous affiliations of Jacques Huot include Laval University & Hydro-Québec.
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Catalytic effect of transition metals on hydrogen sorption in nanocrystalline ball milled MgH2-Tm (Tm=Ti, V, Mn, Fe and Ni) systems
TL;DR: In this article, an extensive mechanical milling was used to make MgH2-Tm (Tm=3d-transition elements Ti, V, Mn, Fe, Ni) nanocomposite powders.
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Structural study and hydrogen sorption kinetics of ball-milled magnesium hydride
TL;DR: In this article, the authors present a systematic study of structural modifications and hydrogen absorption-desorption kinetics of ball-milled magnesium hydride, and they show that after only 2 h of milling, a metastable orthorhombic (γ)-morphological phase is formed.
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Mechanochemical synthesis of hydrogen storage materials
Jacques Huot,Dorthe Bomholdt Ravnsbæk,Jian Zhang,Fermin Cuevas,Michel Latroche,Torben R. Jensen +5 more
TL;DR: In this article, the use of milling tools for tuning the microstructure of metals to modify their hydrogenation properties is discussed, and more specialised techniques such as solid/liquid based methods are mentioned along with the common characteristics of mechanochemistry as a way of synthesizing hydrogen storage materials.
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Review of magnesium hydride-based materials: development and optimisation
Jean-Claude Crivello,Bernard Dam,Roman V. Denys,M. Dornheim,David M. Grant,Jacques Huot,Torben R. Jensen,P.E. de Jongh,Michel Latroche,Chiara Milanese,D. Milcius,Gavin S. Walker,Colin J. Webb,Claudia Zlotea,Volodymyr A. Yartys +14 more
TL;DR: In this paper, the authors review the fundamentals of the Mg-H system and look at the recent advances in the optimisation of magnesium hydride as a hydrogen storage material through the use of catalytic additives, incorporation of defects and an understanding of the rate-limiting processes during absorption and desorption.
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Hydrogen storage properties of the mechanically milled MgH2–V nanocomposite
TL;DR: In this paper, the hydrogen storage properties of a new composite MgH2+V prepared by ball milling were presented. But the results were limited to hydrogen desorption at 473 K under vacuum and re-absorbation at room temperature.