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Title: Viable Materials with a Giant Magnetocaloric Effect

Abstract

This review of the current state of magnetocalorics is focused on materials exhibiting a giant magnetocaloric response near room temperature. To be economically viable for industrial applications and mass production, materials should have desired useful properties at a reasonable cost and should be safe for humans and the environment during manufacturing, handling, operational use, and after disposal. The discovery of novel materials is followed by a gradual improvement of properties by compositional adjustment and thermal or mechanical treatment. Consequently, with time, good materials become inferior to the best. There are several known classes of inexpensive materials with a giant magnetocaloric effect, and the search continues. View Full-Text

Authors:
ORCiD logo [1]; ORCiD logo [2]
  1. Ames Lab., Ames, IA (United States)
  2. Moscow State Univ., Moscow (Russian Federation)
Publication Date:
Research Org.:
Ames Lab., Ames, IA (United States)
Sponsoring Org.:
USDOE
OSTI Identifier:
1661582
Report Number(s):
IS-J-10-224
Journal ID: ISSN 2073-4352
Grant/Contract Number:  
DE-AC02-07CH11358
Resource Type:
Accepted Manuscript
Journal Name:
Crystals
Additional Journal Information:
Journal Volume: 10; Journal Issue: 9; Journal ID: ISSN 2073-4352
Publisher:
MDPI
Country of Publication:
United States
Language:
English
Subject:
magnetocaloric; economically viable; solid; materials for energy conversion

Citation Formats

Zarkevich, Nikolai A., and Zverev, Vladimir I. Viable Materials with a Giant Magnetocaloric Effect. United States: N. p., 2020. Web. doi:10.3390/cryst10090815.
Zarkevich, Nikolai A., & Zverev, Vladimir I. Viable Materials with a Giant Magnetocaloric Effect. United States. doi:10.3390/cryst10090815.
Zarkevich, Nikolai A., and Zverev, Vladimir I. Tue . "Viable Materials with a Giant Magnetocaloric Effect". United States. doi:10.3390/cryst10090815. https://www.osti.gov/servlets/purl/1661582.
@article{osti_1661582,
title = {Viable Materials with a Giant Magnetocaloric Effect},
author = {Zarkevich, Nikolai A. and Zverev, Vladimir I.},
abstractNote = {This review of the current state of magnetocalorics is focused on materials exhibiting a giant magnetocaloric response near room temperature. To be economically viable for industrial applications and mass production, materials should have desired useful properties at a reasonable cost and should be safe for humans and the environment during manufacturing, handling, operational use, and after disposal. The discovery of novel materials is followed by a gradual improvement of properties by compositional adjustment and thermal or mechanical treatment. Consequently, with time, good materials become inferior to the best. There are several known classes of inexpensive materials with a giant magnetocaloric effect, and the search continues. View Full-Text},
doi = {10.3390/cryst10090815},
journal = {Crystals},
number = 9,
volume = 10,
place = {United States},
year = {2020},
month = {9}
}

Journal Article:
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Giant low field magnetocaloric effect in soft ferromagnetic ErRuSi
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Making and Breaking Covalent Bonds across the Magnetic Transition in the Giant Magnetocaloric Material Gd 5 ( Si 2 Ge 2 )
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About the mechanical stability of MnFe(P,Si,B) giant-magnetocaloric materials
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Giant Magnetocaloric Effect at Room Temperature and Low-Field Change in Fe78-xCrxSi4Nb5B12Cu1 Amorphous Alloys
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Combined giant inverse and normal magnetocaloric effect for room-temperature magnetic cooling
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Impact of cycle-hysteresis interactions on the performance of giant magnetocaloric effect refrigerants
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Effect of Isovalent Cation Substitution on the Thermal, Caloric, and Magnetocaloric Properties of the (La1 – yEuy)0.7Pb0.3MnO3 Manganites
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Magnetic properties and critical behaviour of GdAl2: Thermal expansion, magnetization, magnetostriction and magnetocaloric effect
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Giant magnetocaloric effect in clathrates
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On entropy determination from magnetic and calorimetric experiments in conventional giant magnetocaloric materials
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Massive Magnetic-Field-Induced Structural Transformation in G d 5 G e 4 and the Nature of the Giant Magnetocaloric Effect
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Large Inverse Magnetocaloric Effects and Giant Magnetoresistance in Ni-Mn-Cr-Sn Heusler Alloys
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Influence of carbon on the giant magnetocaloric effect of LaFe11.7Si1.3
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Giant magnetocaloric and magnetoresistance effects in ferrimagnetic Mn 1.9 Co 0.1 Sb alloy
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Theory of giant-caloric effects in multiferroic materials
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Giant and anisotropic magnetocaloric effect in antiferromagnetic single crystalline DySb
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Giant reversible barocaloric response of (MnNiSi) 1− x (FeCoGe) x ( x = 0.39, 0.40, 0.41)
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A review of emerging technologies for food refrigeration applications
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Giant magnetocaloric effect, magnetization plateaux and jumps of the regular Ising polyhedra
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Hints on the origin of the thermal hysteresis suppression in giant magnetocaloric thin films irradiatied with highly charged ions
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Low-field induced giant magnetocaloric effect in TmCuAl compound
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Peculiarities of Giant Magnetocaloric Effect in Ni50Mn35In15 Alloys in the Vicinity of Martensitic Transition
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Anisotropic magnetic properties and giant magnetocaloric effect of single-crystal PrSi
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Adiabatic measurement of the giant magnetocaloric effect in MnAs
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Calculation of the giant magnetocaloric effect in the MnFeP 0.45 As 0.55 compound
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Negative Thermal Expansion in the Materials With Giant Magnetocaloric Effect
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Anomalously high entropy change in FeRh alloy
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Giant magnetocaloric effect in tetragonal HoNi 2 B 2 C
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A review and new perspectives for the magnetocaloric effect: New materials and local heating and cooling inside the human body
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Giant magnetic entropy change in La 0.7 Ca 0.3 MnO 3 in low magnetic field
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Giant magnetocaloric effect in ε-(Mn0.83Fe0.17)3.25Ge antiferromagnet
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Giant magnetic entropy change in gadolinium orthoferrite near liquid hydrogen temperature
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Pressure-Induced Three-Dimensional Ferromagnetic Correlations in the Giant Magnetocaloric Compound G d 5 G e 4
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Direct observation of the magnetic-field-induced entropy change in Gd5(SixGe1−x)4 giant magnetocaloric alloys
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Stable atomic structure of NiTi austenite
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Martensitic transformation and giant magnetic entropy change in Ni 42.8 Mn 40.3 Co 5.7 Sn 11.2 alloy
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Direct Measurement of the “Giant” Adiabatic Temperature Change in Gd 5 Si 2 Ge 2
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Structural and magnetic properties of magnetocaloric LaFe13–xSix compounds synthesized by high energy ball-milling
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Magnetic and magnetothermal properties and the magnetic phase diagram of high purity single crystalline terbium along the easy magnetization direction
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Effects of carbon on magnetic properties and magnetic entropy change of the LaFe11.5Si1.5 compound
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Giant magnetocaloric effects by tailoring the phase transitions
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Giant Magnetocaloric Effect in the Region of Magnetic Phase Transition in Mn (As,Sb) Compounds
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Giant reversible magnetocaloric effect in orthorhombic GdScO3
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Thermal conductivity of giant magnetocaloric Mn compounds
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Magnetic Properties and Giant Magnetocaloric Effects on the NiMn0.9Sb0.1 Compound
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Anisotropic magnetic properties and giant rotating magnetocaloric effect in double-perovskite T b 2 CoMn O 6
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Giant magnetocaloric effect in Tm-based bulk metallic glasses
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Giant reversible magnetocaloric effect in cobalt hydroxide nanoparticles
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Field and Temperature Induced Magnetic Transition in G d 5 S n 4 : A Giant Magnetocaloric Material
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Magnetic and magnetothermal properties, and the magnetic phase diagram of single-crystal holmium along the easy magnetization direction
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  • Pecharsky, A. O.; Gschneidner, K. A.; Pecharsky, V. K.
  • Journal of Applied Physics, Vol. 93, Issue 8
  • DOI: 10.1063/1.1558210

Recent Progress in Exploring Magnetocaloric Materials
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