Add to ORKGMnNiSi-based alloys and isostructural systems have traditionally demonstrated impressive magnetocaloric properties near room temperature associated with a highly tunable first-order magnetostructural transition that involves large latent heat. However, these materials are limited by a small field-sensitivity of the transition, preventing significant reversible effects usable for cooling applications. Instead, the concomitant large transition volume changes prompt a high pressure-sensitivity, and therefore, promise substantial barocaloric performances, but they have been sparsely studied in these materials. Here, we study the barocaloric response in a series of composition-related (MnNiSi)1-x(FeCoGe)x (x = 0.39, 0.40, 0.41) alloys that span ...
The MnCoGe alloy can crystallize in either the hexagonal Ni2In- or the orthorhombic TiNiSi-type of s...
The magnetic properties, phase transitions, and related magnetocaloric effects in Mn1-xFexCoGe (x=0....
A first-order magneto-structural transition from a ferromagnetic orthorhombic TiNiSi-type martensite...
MnNiSi-based alloys and isostructural systems have traditionally demonstrated impressive magnetocalo...
MnNiSi-based alloys and isostructural systems have traditionally demonstrated impressive magnetocalo...
The isostructural alloying of two compounds with different magnetic and thermo-structural properties...
Hydrostatic pressure represents an inexpensive and practical method of driving caloric effects in br...
A first-order magneto-structural transition from a ferromagnetic orthorhombic TiNiSi-type martensite...
The magnetocaloric effect (MCE) is the basis for magnetic refrigeration, and can replace conventiona...
The coupling between structural and magnetic degrees of freedom is crucial for realization of intere...
Hydrostatic pressure represents an inexpensive and practical method of driving caloric effects in br...
(MnNiSi)0.56(FeNiGe)0.44 belongs to a new family of alloys, similar to MnAs, showing a magnetostruct...
The clean and energy-efficient solid-state refrigeration based on magnetostructural phase transforma...
Solid‐state caloric effects as intrinsic responses from different physical external stimuli (magneti...
A remarkable decrease of the structural transition temperature of MnNiSi from 1200 to transitions, l...
The MnCoGe alloy can crystallize in either the hexagonal Ni2In- or the orthorhombic TiNiSi-type of s...
The magnetic properties, phase transitions, and related magnetocaloric effects in Mn1-xFexCoGe (x=0....
A first-order magneto-structural transition from a ferromagnetic orthorhombic TiNiSi-type martensite...
MnNiSi-based alloys and isostructural systems have traditionally demonstrated impressive magnetocalo...
MnNiSi-based alloys and isostructural systems have traditionally demonstrated impressive magnetocalo...
The isostructural alloying of two compounds with different magnetic and thermo-structural properties...
Hydrostatic pressure represents an inexpensive and practical method of driving caloric effects in br...
A first-order magneto-structural transition from a ferromagnetic orthorhombic TiNiSi-type martensite...
The magnetocaloric effect (MCE) is the basis for magnetic refrigeration, and can replace conventiona...
The coupling between structural and magnetic degrees of freedom is crucial for realization of intere...
Hydrostatic pressure represents an inexpensive and practical method of driving caloric effects in br...
(MnNiSi)0.56(FeNiGe)0.44 belongs to a new family of alloys, similar to MnAs, showing a magnetostruct...
The clean and energy-efficient solid-state refrigeration based on magnetostructural phase transforma...
Solid‐state caloric effects as intrinsic responses from different physical external stimuli (magneti...
A remarkable decrease of the structural transition temperature of MnNiSi from 1200 to transitions, l...
The MnCoGe alloy can crystallize in either the hexagonal Ni2In- or the orthorhombic TiNiSi-type of s...
The magnetic properties, phase transitions, and related magnetocaloric effects in Mn1-xFexCoGe (x=0....
A first-order magneto-structural transition from a ferromagnetic orthorhombic TiNiSi-type martensite...