Huishu Yu scite author profile

Recently, high-entropy alloys (HEAs) have been extensively investigated due to their unique structural design, superior stability, excellent functional feature and superior mechanical performance. However, most of the reported HEAs focus on studying the compositional design and microstructure and mechanical properties of materials. There are relatively few studies on electrochemical performance and theoretical studies of HEAs. In addition, the potential applications of HEAs as energy storage materials for electrocatalysts have attracted widely attention in the development and application aspects of electrocatalysis. It can be attributed to their high conductivity, excellent structural stability and superior electrocatalytic activities with small overpotential and abundant active sites, which is comparable to the commercial noble metal catalysts. In this review, firstly, we briefly discuss the concept and structure characteristics of high entropy alloys. Then, the research progress of high-entropy alloys as electrocatalysis are also summarized, including hydrogen evolution reaction (HER), oxygen evolution reaction (OER) and oxygen reduction reaction (ORR), respectively. Finally, the future development trend of HEAs is also prospected for energy conversion fields.

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AlxCoCrFeNiSi high entropy alloy coatings with high microhardness and improved wear resistance

Jin

Zhang

et al. 2020

Surface and Coatings Technology

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Physical Models for Vacuum-Induced Multistage Atomization of High-Entropy Fecocrnimo Alloy Powder for 3d Printing

ZHANG

Zhou

et al. 2023

Preprint

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Physical models for vacuum-induced multistage atomization of high-entropy FeCoCrNiMo alloy powder for 3D printing

Yu¹,

Zhang²,

Zhou³

et al. 2023

Journal of Materials Research and Technology

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Huishu Yu

Review of High Entropy Alloys Electrocatalysts for Hydrogen Evolution, Oxygen Evolution, and Oxygen Reduction Reaction

AlxCoCrFeNiSi high entropy alloy coatings with high microhardness and improved wear resistance

Physical Models for Vacuum-Induced Multistage Atomization of High-Entropy Fecocrnimo Alloy Powder for 3d Printing

Physical models for vacuum-induced multistage atomization of high-entropy FeCoCrNiMo alloy powder for 3D printing

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