Amorphous alloys for hydrogen storage

Huang, Liang; Lin, Huaijun; Wang, H.; Ouyang, Liuzhang; Zhu, Min

doi:10.1016/j.jallcom.2023.168945

Cited by 41 publications

(5 citation statements)

References 179 publications

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“…The uneven distribution of elements in the bulk phase of the alloy, which causes the platform stage in the hydrogen storage and release process, can be eliminated through heat treatment. As a result, the material's platform becomes flatter, the hydrogen storage platform widens, and the overall hydrogen storage capacity increasing [8].…”

Section: Ti-mnalloymentioning

confidence: 99%

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Properties of Ti-Based Hydrogen Storage Alloy

Xu,

Cheng,

et al. 2024

JPEE

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An efficient and safe hydrogen storage method is one of the important links for the large-scale development of hydrogen in the future. Because of its low price and simple design, Ti-based hydrogen storage alloys are considered to be suitable for practical applications. In this paper, we review the latest research on Ti-based hydrogen storage alloys. Firstly, the machine learning and density functional theory are introduced to provide theoretical guidance for the optimization of Ti-based hydrogen storage alloys. Then, in order to improve the hydrogen storage performance, we briefly introduce the research of AB type and AB2 type Ti-based alloys, focusing on doping elements and adaptive after treatment. Finally, suggestions for the future research and development of Ti-based hydrogen storage alloys are proposed.

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Section: Ti-mnalloymentioning

confidence: 99%

“…As shown in Figure 1, after years of research, various of solid hydrogen storage materials have been researched, including metal alloys [8] [9] [10], chemical Figure 1. Overview of some MH with their volumetric and gravimetric H-density [17].…”

Section: Introductionmentioning

confidence: 99%

Properties of Ti-Based Hydrogen Storage Alloy

Xu,

Cheng,

et al. 2024

JPEE

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“…Owing to its characteristics of having no carbon emissions (as the only product is water), high energy density and abundant resource, hydrogen has gained a lot of interest as the new green energy carrier [ 1 , 2 ]. However, the pervasive use of hydrogen as an energy carrier has been hampered by the lack of reliable and effective hydrogen transportation and storage technology [ 3 , 4 ]. The main goal of hydrogen storage is to ensure that it is always effective, useable at all places and times and secure.…”

Section: Introductionmentioning

confidence: 99%

Improved dehydrogenation performance of LiAlH4 doped with BaMnO3

Sazelee,

Rather,

Sinin

et al. 2024

Heliyon

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“…1,2 Effective and safe storage and transportation of hydrogen are unresolved issues that limit its use as a fuel for the implementation of a hydrogen economy. 3–6 Among various strategies for H 2 storage, chemical storage, especially using liquid chemicals as hydrogen supports, offers substantial potential for large-scale applications. 7 Formic acid (FA, HCOOH) has been extensively considered as a promising liquid chemical hydrogen storage material, owing to a comparable mass/volume hydrogen capacity (4.4 wt% and 53 g H2 L −1 ) and excellent stability in air and aqueous solutions.…”

Section: Introductionmentioning

confidence: 99%