Nature Reviews Materials

, volume 5 , issue 4 , pages 295-309

High-entropy ceramics

Corey Oses ^{1, 2}

Cormac Toher ^{1, 2}

Stefano Curtarolo ^{1, 2}

Hide authors affiliations Show authors affiliations: 2 affiliations

Department of Mechanical Engineering and Materials Science, Duke University, Durham, USA |

Center for Autonomous Materials Design, Duke University, Durham, USA |

Publication type: Journal Article

Publication date: 2020-02-12

Springer Nature

Nature Reviews Materials

scimago Q1

wos Q1

SJR: 19.430

CiteScore: 105.5

Impact factor: 86.2

ISSN: 20588437

DOI: 10.1038/s41578-019-0170-8

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Materials Chemistry

Surfaces, Coatings and Films

Electronic, Optical and Magnetic Materials

Biomaterials

Energy (miscellaneous)

Abstract

Disordered multicomponent systems, occupying the mostly uncharted centres of phase diagrams, were proposed in 2004 as innovative materials with promising applications. The idea was to maximize the configurational entropy to stabilize (near) equimolar mixtures and achieve more robust systems, which became known as high-entropy materials. Initial research focused mainly on metal alloys and nitride films. In 2015, entropy stabilization was demonstrated in a mixture of oxides. Other high-entropy disordered ceramics rapidly followed, stimulating the addition of more components to obtain materials expressing a blend of properties, often highly enhanced. The systems were soon proven to be useful in wide-ranging technologies, including thermal barrier coatings, thermoelectrics, catalysts, batteries and wear-resistant and corrosion-resistant coatings. In this Review, we discuss the current state of the disordered ceramics field by examining the applications and the high-entropy features fuelling them, covering both theoretical predictions and experimental results. The influence of entropy is unavoidable and can no longer be ignored. In the space of ceramics, it leads to new materials that, both as bulk and thin films, will play important roles in technology in the decades to come. The valuable combination of disorder and non-metallic bonding gives rise to high-entropy ceramics. This Review explores the structures and chemistries of these versatile materials, and their applications in catalysis, water splitting, energy storage, thermoelectricity and thermal, environmental and wear protection.

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GOST Copy

Oses C. et al. High-entropy ceramics // Nature Reviews Materials. 2020. Vol. 5. No. 4. pp. 295-309.

GOST all authors (up to 50) Copy

Oses C., Toher C., Curtarolo S. High-entropy ceramics // Nature Reviews Materials. 2020. Vol. 5. No. 4. pp. 295-309.

RIS |

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RIS Copy

TY - JOUR

DO - 10.1038/s41578-019-0170-8

UR - https://doi.org/10.1038/s41578-019-0170-8

TI - High-entropy ceramics

T2 - Nature Reviews Materials

AU - Oses, Corey

AU - Toher, Cormac

AU - Curtarolo, Stefano

PY - 2020

DA - 2020/02/12

PB - Springer Nature

SP - 295-309

IS - 4

VL - 5

SN - 2058-8437

ER -

BibTex |

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BibTex (up to 50 authors) Copy

@article{2020_Oses,

author = {Corey Oses and Cormac Toher and Stefano Curtarolo},

title = {High-entropy ceramics},

journal = {Nature Reviews Materials},

year = {2020},

volume = {5},

publisher = {Springer Nature},

month = {feb},

url = {https://doi.org/10.1038/s41578-019-0170-8},

number = {4},

pages = {295--309},

doi = {10.1038/s41578-019-0170-8}

}

MLA

Cite this

MLA Copy

Oses, Corey, et al. “High-entropy ceramics.” Nature Reviews Materials, vol. 5, no. 4, Feb. 2020, pp. 295-309. https://doi.org/10.1038/s41578-019-0170-8.

Publisher

Springer Nature

Journal

Nature Reviews Materials

scimago Q1

wos Q1

SJR

19.430

CiteScore

105.5

Impact factor

86.2

ISSN

20588437 (Electronic)