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Synthesis of high-entropy hydride from the cantor alloy (fcc–CoCrFeNiMn) at extreme conditions

by Hattori, Takanori , Hanfland, Michael , Grabowski, Blazej , Bhat, Shrikant , Spektor, Kristina , Sangsun, Yang , Divinski, Sergiy , Körmann, Fritz , Sano-Furukawa, Asami , Sahlberg, Martin , Yusenko, Kirill V. , B. Carvalho, Paulo H. , Beyer, Doreen C. , Glazyrin, Konstantin , Ikeda, Yuji , Lee, Jai-Sung , Yu, Ji Hun , Dong, Weiwei , Bykov, Maxim

in 639/301/119/1002 / 639/301/299/892 / Alloys / Entropy / Experiments / Heat resistance / High entropy alloys / High pressure / High temperature / Humanities and Social Sciences / Hydrides / Hydrogen / Materials science / multidisciplinary / Neutron diffraction / Room temperature / Science / Science (multidisciplinary) / Temperature

2026

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Synthesis of high-entropy hydride from the cantor alloy (fcc–CoCrFeNiMn) at extreme conditions

2026

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2026

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Journal Article

Synthesis of high-entropy hydride from the cantor alloy (fcc–CoCrFeNiMn) at extreme conditions

Hattori, Takanori,

Hanfland, Michael,

Grabowski, Blazej,

Bhat, Shrikant,

Spektor, Kristina,

Sangsun, Yang,

Divinski, Sergiy,

Körmann, Fritz,

Sano-Furukawa, Asami,

Sahlberg, Martin,

Yusenko, Kirill V.,

B. Carvalho, Paulo H.,

Beyer, Doreen C.,

Glazyrin, Konstantin,

Ikeda, Yuji,

Lee, Jai-Sung,

Yu, Ji Hun,

Dong, Weiwei,

Bykov, Maxim

2026

Overview

Studies of high-entropy materials contribute to various fields of science and reveal ever more exciting properties of applied interest. Here, we perform a study of the resistance of a Cantor alloy (CoCrFeNiMn) to hydrogen through high-pressure experiments at elevated temperatures by X-ray and neutron time-of-flight experiments and ab initio calculations. We report formation of an fcc hydride based on the Cantor alloy composition. We also provide its characterization, including an estimate of hydrogen content. These findings contribute to the growing body of knowledge on the complex chemistry of high-entropy alloys and high-entropy hydrides. This study shows that the Cantor alloy (CoCrFeNiMn), inert to hydrogen at room temperature, forms a stoichiometric hydride under high-pressure, high-temperature conditions, supported by X-ray, neutron diffraction, and ab initio calculations.

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

Subject

639/301/119/1002

/ 639/301/299/892

/ Alloys

/ Entropy

/ Experiments

/ Heat resistance

/ High entropy alloys