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Chemical interactions that govern the structures of metals

Yuanhui Sun, Lei Zhao, Chris J. Pickard, Russell J. Hemley, Yonghao Zheng, Maosheng Miao

2023Proceedings of the National Academy of Sciences34 citationsDOIOpen Access PDF

Abstract

Most metals adopt simple structures such as body-centered cubic (BCC), face-centered cubic (FCC), and hexagonal close-packed (HCP) structures in specific groupings across the periodic table, and many undergo transitions to surprisingly complex structures on compression, not expected from conventional free-electron-based theories of metals. First-principles calculations have been able to reproduce many observed structures and transitions, but a unified, predictive theory that underlies this behavior is not yet in hand. Discovered by analyzing the electronic properties of metals in various lattices over a broad range of sizes and geometries, a remarkably simple theory shows that the stability of metal structures is governed by electrons occupying local interstitial orbitals and their strong chemical interactions. The theory provides a basis for understanding and predicting structures in solid compounds and alloys over a broad range of conditions.

Topics & Concepts

Cubic crystal systemHexagonal crystal systemChemical physicsAtomic orbitalSimple (philosophy)ElectronElectronic structureMaterials scienceRange (aeronautics)Free electron modelCondensed matter physicsCrystallographyPhysicsChemistryQuantum mechanicsEpistemologyComposite materialPhilosophyAdvanced Chemical Physics Studiesnanoparticles nucleation surface interactionsX-ray Diffraction in Crystallography
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