Hydrogen is emerging as one of the most promising energy carriers for a decarbonised
global energy system. Transportation and storage of hydrogen are critical to its large-scale …

We are witnessing a great transition towards a society powered by renewable energies to
meet the ever-stringent climate target. Hydrogen, as an energy carrier, will play a key role in …

Rare-earth (RE) rich intermetallics crystallizing in orthorhombic Ho6Co2Ga-type crystal
structure exhibit peculiar magnetic properties that are not widely reported for their magnetic …

The key technologies of liquefied hydrogen have been developing rapidly due to its
prospective energy exchange effectiveness, zero emissions, and long distance and …

Magnetic refrigeration attracts increasing interests for its superior efficiency and eco-
friendliness. The crystalline magnetocaloric materials usually exhibit large entropy change …

The development of effective and eco-friendly cooling technology demands an investigation
of new magnetocaloric materials. Compounds containing gadolinium are one of the best …

Abstract (La, Ce)(Mn, Fe, Si) 13-based compounds which show a giant magnetocaloric
effect are potential materials for the cryogenic magnetic refrigeration. However, large …

The expected energy transition to hydrogen gas as a greener energy vector has revived the
interest in magnetic refrigeration at the cryogenic range, specifically between 20 and 80 K …

Because hydrogen is a high-quality, clean energy carrier, it is and will continue to be one of
the key elements/fuels to help solve the climate problem. In addition, new chemical …

Fe 2 P-type compounds exhibit a giant magnetocaloric effect (MCE) and are extensively
studied for room temperature applications. The reduction of their transition temperature …