Observation of giant magnetocaloric effect under low magnetic field in Eu1−xBaxTiO3

Zhao Jun Mo; Zhi Hong Hao; Jin Zhi Deng; Jun Shen; Lan Li; Jian Feng Wu; Feng Xia Hu; Ji Rong Sun; Bao Gen Shen

doi:10.1016/j.jallcom.2016.09.266

Observation of giant magnetocaloric effect under low magnetic field in Eu_1−xBa_xTiO₃

Zhao Jun Mo^*, Zhi Hong Hao, Jin Zhi Deng, Jun Shen, Lan Li, Jian Feng Wu, Feng Xia Hu, Ji Rong Sun, Bao Gen Shen

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

33 Citations (Scopus)

Abstract

The magnetic properties and magnetocaloric effect in Eu_1−xBa_xTiO₃(x = 0, 0.04, 0.08, 0.1) compounds are investigated. With slight Ba-doping, the antiferromagnetic ordering of pure EuTiO₃can be significantly changed to ferromagnetic due to the size Ba²⁺ion bigger than Eu²⁺. A giant reversible magnetocaloric effect and large RC in Eu_1−xBa_xTiO₃compounds were observed. The maximum value of magnetic entropy change (−ΔS_M^max) reaches to 41.4 J/kg K for Eu_0.92Ba_0.08TiO₃under the magnetic field change of 5 T. Especially, under the magnetic field changes of 1 and 2 T, the values of −ΔS_M^maxare evaluated to be 12.5 and 23.4 J/kg K and the maximum values of RC are 54 and 119 J/kg, without magnetic and thermal hysteresis for Eu_0.92Ba_0.08TiO₃. Therefore, the giant reversible magnetocaloric effect and large RC make the Eu_1−xBa_xTiO₃compounds could be considered as a good candidate material for low-temperature and low-field magnetic refrigerant.

Original language	English
Pages (from-to)	235-240
Number of pages	6
Journal	Journal of Alloys and Compounds
Volume	694
DOIs	https://doi.org/10.1016/j.jallcom.2016.09.266
Publication status	Published - 2017
Externally published	Yes

Keywords

EuBaTiO
Magnetic entropy change
Magnetocaloric effect
Refrigerant capacity

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10.1016/j.jallcom.2016.09.266

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Mo, Z. J., Hao, Z. H., Deng, J. Z., Shen, J., Li, L., Wu, J. F., Hu, F. X., Sun, J. R., & Shen, B. G. (2017). Observation of giant magnetocaloric effect under low magnetic field in Eu_1−xBa_xTiO₃. Journal of Alloys and Compounds, 694, 235-240. https://doi.org/10.1016/j.jallcom.2016.09.266

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title = "Observation of giant magnetocaloric effect under low magnetic field in Eu1−xBaxTiO3",

abstract = "The magnetic properties and magnetocaloric effect in Eu1−xBaxTiO3(x = 0, 0.04, 0.08, 0.1) compounds are investigated. With slight Ba-doping, the antiferromagnetic ordering of pure EuTiO3can be significantly changed to ferromagnetic due to the size Ba2+ion bigger than Eu2+. A giant reversible magnetocaloric effect and large RC in Eu1−xBaxTiO3compounds were observed. The maximum value of magnetic entropy change (−ΔSMmax) reaches to 41.4 J/kg K for Eu0.92Ba0.08TiO3under the magnetic field change of 5 T. Especially, under the magnetic field changes of 1 and 2 T, the values of −ΔSMmaxare evaluated to be 12.5 and 23.4 J/kg K and the maximum values of RC are 54 and 119 J/kg, without magnetic and thermal hysteresis for Eu0.92Ba0.08TiO3. Therefore, the giant reversible magnetocaloric effect and large RC make the Eu1−xBaxTiO3compounds could be considered as a good candidate material for low-temperature and low-field magnetic refrigerant.",

keywords = "EuBaTiO, Magnetic entropy change, Magnetocaloric effect, Refrigerant capacity",

author = "Mo, {Zhao Jun} and Hao, {Zhi Hong} and Deng, {Jin Zhi} and Jun Shen and Lan Li and Wu, {Jian Feng} and Hu, {Feng Xia} and Sun, {Ji Rong} and Shen, {Bao Gen}",

note = "Publisher Copyright: {\textcopyright} 2016 Elsevier B.V.",

year = "2017",

doi = "10.1016/j.jallcom.2016.09.266",

language = "English",

volume = "694",

pages = "235--240",

journal = "Journal of Alloys and Compounds",

issn = "0925-8388",

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T1 - Observation of giant magnetocaloric effect under low magnetic field in Eu1−xBaxTiO3

AU - Mo, Zhao Jun

AU - Hao, Zhi Hong

AU - Deng, Jin Zhi

AU - Shen, Jun

AU - Li, Lan

AU - Wu, Jian Feng

AU - Hu, Feng Xia

AU - Sun, Ji Rong

AU - Shen, Bao Gen

PY - 2017

Y1 - 2017

N2 - The magnetic properties and magnetocaloric effect in Eu1−xBaxTiO3(x = 0, 0.04, 0.08, 0.1) compounds are investigated. With slight Ba-doping, the antiferromagnetic ordering of pure EuTiO3can be significantly changed to ferromagnetic due to the size Ba2+ion bigger than Eu2+. A giant reversible magnetocaloric effect and large RC in Eu1−xBaxTiO3compounds were observed. The maximum value of magnetic entropy change (−ΔSMmax) reaches to 41.4 J/kg K for Eu0.92Ba0.08TiO3under the magnetic field change of 5 T. Especially, under the magnetic field changes of 1 and 2 T, the values of −ΔSMmaxare evaluated to be 12.5 and 23.4 J/kg K and the maximum values of RC are 54 and 119 J/kg, without magnetic and thermal hysteresis for Eu0.92Ba0.08TiO3. Therefore, the giant reversible magnetocaloric effect and large RC make the Eu1−xBaxTiO3compounds could be considered as a good candidate material for low-temperature and low-field magnetic refrigerant.

AB - The magnetic properties and magnetocaloric effect in Eu1−xBaxTiO3(x = 0, 0.04, 0.08, 0.1) compounds are investigated. With slight Ba-doping, the antiferromagnetic ordering of pure EuTiO3can be significantly changed to ferromagnetic due to the size Ba2+ion bigger than Eu2+. A giant reversible magnetocaloric effect and large RC in Eu1−xBaxTiO3compounds were observed. The maximum value of magnetic entropy change (−ΔSMmax) reaches to 41.4 J/kg K for Eu0.92Ba0.08TiO3under the magnetic field change of 5 T. Especially, under the magnetic field changes of 1 and 2 T, the values of −ΔSMmaxare evaluated to be 12.5 and 23.4 J/kg K and the maximum values of RC are 54 and 119 J/kg, without magnetic and thermal hysteresis for Eu0.92Ba0.08TiO3. Therefore, the giant reversible magnetocaloric effect and large RC make the Eu1−xBaxTiO3compounds could be considered as a good candidate material for low-temperature and low-field magnetic refrigerant.

KW - EuBaTiO

KW - Magnetic entropy change

KW - Magnetocaloric effect

KW - Refrigerant capacity

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JO - Journal of Alloys and Compounds

JF - Journal of Alloys and Compounds

ER -

Observation of giant magnetocaloric effect under low magnetic field in Eu_1−xBa_xTiO₃

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