It explains the four core effects that define HEM behavior: high configurational entropy, lattice distortion, sluggish diffusion, and the "cocktail effect". Alternative Recent Reviews
If you are looking for specific sub-fields or even more recent data, consider these: High Entropy Materials: Processing, Properties,...
It details modern synthesis routes such as mechanical alloying, vacuum smelting, and additive manufacturing . It explains the four core effects that define
A comprehensive and helpful paper that matches your interest is published in Springer Nature (2022) and indexed on ResearchGate . Unlike older reviews that focused strictly on metals,
Unlike older reviews that focused strictly on metals, this paper covers all major categories of high-entropy materials (HEMs), including alloys, ceramics, and polymers.
The authors systematically correlate material structure with mechanical, thermal, and functional properties, specifically highlighting electromagnetic interference (EMI) shielding and radiation resistance.
This work is particularly useful because it expands beyond high-entropy alloys to include ceramics and composites, offering a unified look at how synthesis methods dictate microstructural characteristics and final performance. Key Features of the Recommended Paper