The transition toward a carbon-neutral society based on renewable energies goes hand in
hand with the availability of energy-efficient technologies. Magnetocaloric cooling is a very …

Ni-Mn-based metamagnetic shape-memory alloys exhibit a giant thermal response to
magnetic fields and uniaxial stress which can be utilized in single caloric or multicaloric …

Metamagnetic shape memory alloys with giant caloric effects and sophisticated geometries
are promising candidates for solid-state refrigeration. Additive manufacturing (AM) …

Magnetic refrigeration offers an energy efficient and environmental friendly alternative to
conventional vapor‐cooling. However, its adoption depends on materials with tailored …

Recently, the all-d-metal Ni (Co) MnTi based Heusler compounds are found to have a giant
magnetocaloric effect (GMCE) near room temperature and manifest different functionalities …

Abstract Ni-Co-Mn-Ti all-d Heusler alloys are attracting considerable attention for solid-state
caloric cooling applications due to their promising combination of excellent caloric and …

Magnetic refrigeration is a highly active field of research. The recent studies in materials and
methods for hydrogen liquefaction and innovative techniques based on multicaloric …

Abstract Ni-Mn-Ti shape memory alloys show great potential in solid-state elastocaloric
cooling owing to very prominent elastocaloric effect along with first-order stress-induced …

Abstract The Ni-Mn-Sn ferromagnetic shape memory alloys exhibit excellent both magnetic
field-induced magnetocaloric effect and uniaxial stress-induced elastocaloric effect …

Abstract Ni-Mn-based Heusler alloys such as Ni-Mn-Sn show both elastocaloric and
magnetocaloric effects during the magneto-structural phase transition, making these …