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Article Abstract
Chemical bonding influences various physical properties and holds promise for guiding the discovery of high-performance materials. In half-Heusler (HH) compounds, complex interactions between constituent atoms, featuring both covalent and ionic characters, are supposed to affect mechanical and thermoelectric behavior. We use a data-driven approach based on first-principles calculations to identify promising HH compounds and explore the correlations between bonding-related features and functional properties. Our analysis suggests that enhanced ─ bonding correlates with greater bulk modulus (), larger Grüneisen parameter, and enhanced power factor. Tungsten-iron-lead stands out with excellent = 162.4 gigapascals and a low lattice thermal conductivity of ~7.7 watts per meter per kelvin, leading to a figure of merit of ~0.52 (at 526 kelvin) without any nanostructuring, surpassing that of vanadium-iron-antimony by ~80.8%. These findings highlight how chemical bonding characteristics, interpreted from electronic structure and orbital-resolved bonding analysis, provide in-depth insights into the structure-to-property correlation to accelerate the screening out of potential thermoelectrics.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12204153 | PMC |
| http://dx.doi.org/10.1126/sciadv.adw4514 | DOI Listing |
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