Wenhui Liang scite author profile

The multicaloric effect refers to the thermal response of a solid material driven by simultaneous or sequential application of more than one type of external field. For practical applications, the multicaloric effect is a potentially interesting strategy to improve the efficiency of refrigeration devices. Here, the state of the art in multi-field driven multicaloric effect is reviewed. The phenomenology and fundamental thermodynamics of the multicaloric effect are well established. A number of theoretical and experimental research approaches are covered. At present, the theoretical understanding of the multicaloric effect is thorough. However, due to the limitation of the current experimental technology, the experimental approach is still in progress. All these researches indicated that the thermal response and effective reversibility of multiferroic materials can be improved through multicaloric cycles to overcome the inherent limitations of the physical mechanisms behind single-field-induced caloric effects. Finally, the viewpoint of further developments is presented.

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Anisotropic nonvolatile magnetization controlled by electric field in amorphous SmCo thin films grown on (011)-cut PMN-PT substrates

Liang

Zhang

et al. 2019

Nanoscale

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Catalytic Ozonation of Quinoline Utilizing Manganese-Based Catalyst with Abundant Oxygen Vacancies

et al. 2021

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Strong room temperature spontaneous exchange bias in BiFeO3-CoFe2O4 nanocomposites

Huang

Song

Tian

et al. 2018

Journal of Alloys and Compounds

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Tuning the electron transport band gap of bovine serum albumin by doping with Vb12

Liang

Cai

et al. 2019

Chem. Commun.

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12 3

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Wenhui Liang

Single-atom-sized Ni–N₄ sites anchored in three-dimensional hierarchical carbon nanostructures for the oxygen reduction reaction

Topotactic phase transformations by concerted dual-ion migration of B-site cation and oxygen in multivalent cobaltite La–Sr–Co–Ox films

Novel reduction of hysteresis loss controlled by strain memory effect in FeRh/PMN-PT heterostructures

Multicaloric and coupled-caloric effects*

Anisotropic nonvolatile magnetization controlled by electric field in amorphous SmCo thin films grown on (011)-cut PMN-PT substrates

Catalytic Ozonation of Quinoline Utilizing Manganese-Based Catalyst with Abundant Oxygen Vacancies

Strong room temperature spontaneous exchange bias in BiFeO3-CoFe2O4 nanocomposites

Tuning the electron transport band gap of bovine serum albumin by doping with Vb12

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Wenhui Liang

Single-atom-sized Ni–N4 sites anchored in three-dimensional hierarchical carbon nanostructures for the oxygen reduction reaction

Topotactic phase transformations by concerted dual-ion migration of B-site cation and oxygen in multivalent cobaltite La–Sr–Co–Ox films

Novel reduction of hysteresis loss controlled by strain memory effect in FeRh/PMN-PT heterostructures

Multicaloric and coupled-caloric effects*

Anisotropic nonvolatile magnetization controlled by electric field in amorphous SmCo thin films grown on (011)-cut PMN-PT substrates

Catalytic Ozonation of Quinoline Utilizing Manganese-Based Catalyst with Abundant Oxygen Vacancies

Strong room temperature spontaneous exchange bias in BiFeO3-CoFe2O4 nanocomposites

Tuning the electron transport band gap of bovine serum albumin by doping with Vb12

Contact Info

Product

Resources

About

Single-atom-sized Ni–N₄ sites anchored in three-dimensional hierarchical carbon nanostructures for the oxygen reduction reaction