Hydrogen-Stabilized ScYNdGd Medium-Entropy Alloy for Hydrogen Storage

化学 氢气储存 合金 Laves相 解吸 化学工程 间质缺损 高熵合金 金属间化合物 结晶学 纳米技术 吸附 材料科学 兴奋剂 有机化学 物理化学 光电子学 工程类
作者
Mateusz Balcerzak,Jéssica Bruna Ponsoni,Hilke Petersen,César Menéndez,Jan Ternieden,Linda Zhang,Frederik Winkelmann,Kondo‐François Aguey‐Zinsou,Michael Hirscher,Michael Felderhoff
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:146 (8): 5283-5294 被引量:23
标识
DOI:10.1021/jacs.3c11943
摘要

The research on the functional properties of medium- and high-entropy alloys (MEAs and HEAs) has been in the spotlight recently. Many significant discoveries have been made lately in hydrogen-based economy-related research where these alloys may be utilized in all of its key sectors: water electrolysis, hydrogen storage, and fuel cell applications. Despite the rapid development of MEAs and HEAs with the ability to reversibly absorb hydrogen, the research is limited to transition-metal-based alloys that crystallize in body-centered cubic solid solution or Laves phase structures. To date, no study has been devoted to the hydrogenation of rare-earth-element (REE)-based MEAs or HEAs, as well as to the alloys crystallizing in face-centered-cubic (FCC) or hexagonal-close-packed structures. Here, we elucidate the formation and hydrogen storage properties of REE-based ScYNdGd MEA. More specifically, we present the astounding stabilization of the single-phase FCC structure induced by the hydrogen absorption process. Moreover, the measured unprecedented high storage capacity of 2.5 H/M has been observed after hydrogenation conducted under mild conditions that proceeded without any phase transformation in the material. The studied MEA can be facilely activated, even after a long passivation time. The results of complementary measurements showed that the hydrogen desorption process proceeds in two steps. In the first, hydrogen is released from octahedral interstitial sites at relatively low temperatures. In the second, high-temperature process, it is associated with the desorption of hydrogen atoms stored in tetrahedral sites. The presented results may impact future research of a novel group of REE-based MEAs and HEAs with adaptable hydrogen storage properties and a broad scope of possible applications.
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