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Article Abstract
Reversible hydrogen uptake and the metal/dielectric transition make the Mg/MgH system a prime candidate for solid-state hydrogen storage and dynamic plasmonics. However, high dehydrogenation temperatures and slow dehydrogenation hamper broad applicability. One promising strategy to improve dehydrogenation is the formation of metastable γ-MgH . A nanoparticle (NP) design, where γ-MgH forms intrinsically during hydrogenation is presented and a formation mechanism based on transmission electron microscopy results is proposed. Volume expansion during hydrogenation causes compressive stress within the confined, anisotropic NPs, leading to plastic deformation of β-MgH via (301) twinning. It is proposed that these twins nucleate γ-MgH nanolamellas, which are stabilized by residual compressive stress. Understanding this mechanism is a crucial step toward cycle-stable, Mg-based dynamic plasmonic and hydrogen-storage materials with improved dehydrogenation. It is envisioned that a more general design of confined NPs utilizes the inherent volume expansion to reform γ-MgH during each rehydrogenation.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11468506 | PMC |
| http://dx.doi.org/10.1002/adma.202008259 | DOI Listing |
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