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Hydrogen Desorption Kinetics of V30Nb10(TixCr1–x)60 High-Entropy Alloys

Bo Cheng, Lingjie Kong, Yunkai Li, Di Wan, Yunfei Xue

2023Metals28 citationsDOIOpen Access PDF

Abstract

In recent years, high-entropy alloys (HEAs) have attracted wide attention for their enormous hydrogen storage potential, fast hydrogen absorption kinetics, and a wide range of composition selectivity, and the fact that alloys with body-centered cubic (BCC) structure are considered to possess large capacity. Herein, three V30Nb10(TixCr1–x)60 HEAs with different Ti contents (Ti25, Ti30, Ti35) forming BCC structures were designed using the method of CALPHAD. The microstructure characteristics and the hydrogen storage performances, especially the kinetics of hydrogen desorption, were systematically investigated. The results show that after absorbing ~3.7 wt.% hydrogen at 300 K with 100 bar hydrogen pressure, the studied alloys exhibit similar hydrogen release behaviors at different temperatures. Taking the V30Nb10Ti25Cr35 alloy as an example, it was able to release 1.96 wt.%, 2.21 wt.%, and 2.48 wt.% of hydrogen at 353, 373, and 423 K, respectively. The higher the temperature, the faster the hydrogen desorption kinetics and the more hydrogen released. The hydrogen desorption kinetics of the alloys were successfully fitted with the Ginstling–Brounshtein model, and the main rate-controlling step was diffusion. In addition, the diffusion activation energy of hydrogen desorption decreases with the substitution of Cr content. The present study is expected to provide valuable information for the better development of high-entropy-based hydrogen storage alloys.

Topics & Concepts

Hydrogen storageHydrogenDesorptionKineticsAlloyMaterials scienceThermodynamicsActivation energyMicrostructureDiffusionChemical engineeringAnalytical Chemistry (journal)ChemistryMetallurgyPhysical chemistryAdsorptionOrganic chemistryPhysicsQuantum mechanicsEngineeringHydrogen Storage and MaterialsHigh Entropy Alloys StudiesElectrocatalysts for Energy Conversion
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