Enhanced electrocaloric cooling in ferroelectric single crystals by electric field reversal

Yang Bin Ma; Nikola Novak; Jurij Koruza; Tongqing Yang; Karsten Albe; Bai Xiang Xu

doi:10.1103/PhysRevB.94.100104

Enhanced electrocaloric cooling in ferroelectric single crystals by electric field reversal

Yang Bin Ma, Nikola Novak, Jurij Koruza, Tongqing Yang, Karsten Albe, Bai Xiang Xu

Institut für Werkstoffkunde, Fügetechnik und Umformtechnik (3030)

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

An improved thermodynamic cycle is validated in ferroelectric single crystals, where the cooling effect of an electrocaloric refrigerant is enhanced by applying a reversed electric field. In contrast to the conventional adiabatic heating or cooling by on-off cycles of the external electric field, applying a reversed field is significantly improving the cooling efficiency, since the variation in configurational entropy is increased. By comparing results from computer simulations using Monte Carlo algorithms and experiments using direct electrocaloric measurements, we show that the electrocaloric cooling efficiency can be enhanced by more than 20% in standard ferroelectrics and also relaxor ferroelectrics, like Pb(Mg1/3/Nb2/3)0.71Ti0.29O3.

Originalsprache	englisch
Aufsatznummer	100104
Fachzeitschrift	Physical Review B
Jahrgang	94
Ausgabenummer	10
DOIs	https://doi.org/10.1103/PhysRevB.94.100104
Publikationsstatus	Veröffentlicht - 29 Sep. 2016

ASJC Scopus subject areas

Elektronische, optische und magnetische Materialien
Physik der kondensierten Materie

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10.1103/PhysRevB.94.100104

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title = "Enhanced electrocaloric cooling in ferroelectric single crystals by electric field reversal",

abstract = "An improved thermodynamic cycle is validated in ferroelectric single crystals, where the cooling effect of an electrocaloric refrigerant is enhanced by applying a reversed electric field. In contrast to the conventional adiabatic heating or cooling by on-off cycles of the external electric field, applying a reversed field is significantly improving the cooling efficiency, since the variation in configurational entropy is increased. By comparing results from computer simulations using Monte Carlo algorithms and experiments using direct electrocaloric measurements, we show that the electrocaloric cooling efficiency can be enhanced by more than 20% in standard ferroelectrics and also relaxor ferroelectrics, like Pb(Mg1/3/Nb2/3)0.71Ti0.29O3.",

author = "Ma, {Yang Bin} and Nikola Novak and Jurij Koruza and Tongqing Yang and Karsten Albe and Xu, {Bai Xiang}",

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AU - Ma, Yang Bin

AU - Novak, Nikola

AU - Koruza, Jurij

AU - Yang, Tongqing

AU - Albe, Karsten

AU - Xu, Bai Xiang

PY - 2016/9/29

Y1 - 2016/9/29

N2 - An improved thermodynamic cycle is validated in ferroelectric single crystals, where the cooling effect of an electrocaloric refrigerant is enhanced by applying a reversed electric field. In contrast to the conventional adiabatic heating or cooling by on-off cycles of the external electric field, applying a reversed field is significantly improving the cooling efficiency, since the variation in configurational entropy is increased. By comparing results from computer simulations using Monte Carlo algorithms and experiments using direct electrocaloric measurements, we show that the electrocaloric cooling efficiency can be enhanced by more than 20% in standard ferroelectrics and also relaxor ferroelectrics, like Pb(Mg1/3/Nb2/3)0.71Ti0.29O3.

AB - An improved thermodynamic cycle is validated in ferroelectric single crystals, where the cooling effect of an electrocaloric refrigerant is enhanced by applying a reversed electric field. In contrast to the conventional adiabatic heating or cooling by on-off cycles of the external electric field, applying a reversed field is significantly improving the cooling efficiency, since the variation in configurational entropy is increased. By comparing results from computer simulations using Monte Carlo algorithms and experiments using direct electrocaloric measurements, we show that the electrocaloric cooling efficiency can be enhanced by more than 20% in standard ferroelectrics and also relaxor ferroelectrics, like Pb(Mg1/3/Nb2/3)0.71Ti0.29O3.

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Enhanced electrocaloric cooling in ferroelectric single crystals by electric field reversal

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