Generalized Stress-Redox Equivalence: A Chemical Link between Pressure and Electronegativity in Inorganic Crystals

Abstract: The crystal structure of many inorganic compounds can be understood as a metallic matrix playing the role of a host lattice in which the nonmetallic atomic constituents are located, the Anions in Metallic Matrices (AMM) model stated. The power and utility of this model lie in its capacity to anticipate the actual positions of the guest atoms in inorganic crystals using only the information known from the metal lattice structure. As a pertinent test-bed for the AMM model, we choose a set of common metallic phas… Show more

“…The relevant eight ELF attractors still appear at the tetrahedral positions. However, and in concordance with the generalized stress-redox correlation, 15 the electron population inside the basins of the tetrahedral voids decreases at this expanded sub-lattice. This is a consequence of the lower overlap between the electron density clouds of neighbouring atoms when their internuclear distance increases.…”

Comment on “Uncommon structural and bonding properties in Ag₁₆B₄O₁₀” by A. Kovalevskiy, C. Yin, J. Nuss, U. Wedig, and M. Jansen, Chem. Sci., 2020, 11, 962

“…The relevant eight ELF attractors still appear at the tetrahedral positions. However, and in concordance with the generalized stress-redox correlation, 15 the electron population inside the basins of the tetrahedral voids decreases at this expanded sub-lattice. This is a consequence of the lower overlap between the electron density clouds of neighbouring atoms when their internuclear distance increases.…”

Comment on “Uncommon structural and bonding properties in Ag₁₆B₄O₁₀” by A. Kovalevskiy, C. Yin, J. Nuss, U. Wedig, and M. Jansen, Chem. Sci., 2020, 11, 962

“…Detailed analyses and consideration of electronic structure will always be necessary for quantitative evaluations of, e.g., bond strength and polarity. 66,67…”

Relating atomic energy, radius and electronegativity through compression

“…In the same way, when the molecule is compressed up to the limit where the electronic repulsion dominates, the bonding electrons suffer a strong confinement in a really tiny space, the cores began to repel with each other and, formally, the bond disappear forming an inner valence shells interaction. The activation of the core electrons at the hard sphere point would have a deep impact in the ionization potential or in the electronegativity of the atoms, as previously noticed in the high‐pressure field [44–47] …”

“…The activation of the core electrons at the hard sphere point would have a deep impact in the ionization potential or in the electronegativity of the atoms, as previously noticed in the high‐pressure field. [ 44 , 45 , 46 , 47 ]…”

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