VN

V.T. Nguyên

12 records found

Approaching the border of the first order transition and second order transition is significant to optimize the giant magnetocaloric materials performance. The influence of vanadium substitution in the Mn1.2-xVxFe0.75P0.5Si0.5
Using the magnetocaloric effect in nanoparticles holds great potential for efficient refrigeration and energy conversion. The most promising candidate materials for tailoring the Curie temperature to room temperature are rare-earth-based magnetic nanoalloys. However, only few hig ...
We tailored the size distribution of Pt nanoparticles (NPs) on graphene nanoplatelets at a given metal loading by using low-temperature atomic layer deposition carried out in a fluidized bed reactor operated at atmospheric pressure. The Pt NPs deposited at low temperature (100 °C ...
Given the potential applications of (Mn,Fe2(P,Si))-based materials for room-temperature magnetic refrigeration, several research groups have carried out fundamental studies aimed at understanding the role of the magneto-elastic coupling in the first-order magnetic tran ...
Temperature dependent high-resolution x-ray diffraction measurements were used to characterize the magneto-elastic ferromagnetic transition of (Fe,Mn)2(P,Si,B) compounds. Across the transition, apart from a change in lattice parameters across the transition, the internal coordina ...
The influence of Co (Ni) and B co-doping on the structural, magnetic and magnetocaloric properties of (Mn,Fe)2(P,Si) compounds is investigated by X-ray diffraction (XRD), differential scanning calorimetry, magnetic and direct temperature change measurements. It is foun ...
Mn1.000Fe0.950P0.595Si0.330B0.075compounds have been synthesized by high-energy ball milling and a subsequent solid-state reaction. The influence of the sintering conditions on the magnetic phase transition of Mn1.00
Magnetic refrigeration near room temperature is considered as environmentally benign alternative for the current compressor based cooling technology. Two materials that are based on ferromagnetic transition metal compounds are considered as the most promising candidates to be use ...
Amongst magnetic materials that exhibit a giant magnetocaloric effect near room temperature, the(Mn,Fe)2(P,Si) system is one of the most promising candidates for magnetic refrigeration. Although the(Mn,Fe)2(P,Si) materials hold many advantages, controlling the magnetic entropy ch ...
Magnetocaloric nanoparticles based on the Fe2P system have been prepared by ball milling in the presence of the organic solvent heptane and the surfactant oleic acid. The surfactant is used to prevent the re-welding of crushed particles during the ball milling and to e ...