Real‐Time Monitoring of the Dehydrogenation Behavior of a Mg₂FeH₆–MgH₂ Composite by In Situ Transmission Electron Microscopy

Abstract: Herein, real-time observations of dehydrogenation of a Mg 2 FeH 6 -MgH 2 composite by means of in situ transmission electron microscopy (TEM) with advanced spatial (≈0.8 Å) and temporal (25 frames s −1 ) resolution are reported. Careful control and systematic variations of the reaction temperature and electron dose rate enable detailed and direct visualization of the characteristic decomposition of Mg 2 FeH 6 into Mg and Fe, which occurs on the nanometer scale under optimal experimental conditions defined to m… Show more

“…Recent decades have witnessed a rapid increase in the cost and consumption of traditional energy globally. 1,2 The hydrogen and fuel cell-based economy shows a promising prospect for a more environmentally friendly energy sector. 3 Among the options for hydrogen storage, MgH 2 -based materials have shown advantages in capacity, reversibility, abundance, and relatively safe operation.…”

TiVNb-based high entropy alloys as catalysts for enhanced hydrogen storage in nanostructured MgH₂

“…Recent decades have witnessed a rapid increase in the cost and consumption of traditional energy globally. 1,2 The hydrogen and fuel cell-based economy shows a promising prospect for a more environmentally friendly energy sector. 3 Among the options for hydrogen storage, MgH 2 -based materials have shown advantages in capacity, reversibility, abundance, and relatively safe operation.…”

TiVNb-based high entropy alloys as catalysts for enhanced hydrogen storage in nanostructured MgH₂

References

Mechanochemistry at elevated temperature and hydrogen pressure applied for the synthesis of magnesium-cobalt-based hydrogen storage materials