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How 10 at% Al Addition in the Ti-V-Zr-Nb High-Entropy Alloy Changes Hydrogen Sorption Properties

Jorge Montero, Gustav Ek, L. Laversenne, Vivian Nassif, Martin Sahlberg, Claudia Zlotea

2021Molecules52 citationsDOIOpen Access PDF

Abstract

Al0.10Ti0.30V0.25Zr0.10Nb0.25 was prepared to evaluate the effect of 10% aluminum into the previously reported quaternary alloy, Ti0.325V0.275Zr0.125Nb0.275. The as-cast quinary alloy formed a single-phase body centered cubic solid solution and transformed into a body centered tetragonal after hydrogenation. The alloy had a storage capacity of 1.6 H/M (2.6 wt.%) with fast absorption kinetics at room temperature, reaching full capacity within the first 10 min. The major improvements of Al addition (10%) were related to the desorption and cycling properties of the material. The temperature for hydrogen release was significantly decreased by around 100 °C, and the quinary alloy showed superior cycling stability and higher reversible storage capacity than its quaternary counterpart, 94% and 85% of their respective initial capacity, after 20 hydrogenation cycles without phase decomposition.

Topics & Concepts

QuinaryAlloyMaterials scienceHydrogen storageDesorptionHigh entropy alloysKineticsTetragonal crystal systemChemical engineeringSorptionAbsorption capacityDecompositionPhase (matter)MetallurgyChemistryPhysical chemistryOrganic chemistryAdsorptionQuantum mechanicsPhysicsEngineeringHigh Entropy Alloys StudiesHydrogen Storage and MaterialsHigh-Temperature Coating Behaviors