Unexpected Stable Stoichiometries of Sodium Chlorides

Zhang, Weiwei; Oganov, Artem R.; Goncharov, Alexander F.; Zhu, Qiang; Boulfelfel, Salah Eddine; Lyakhov, Andriy O.; Stavrou, Elissaios; Somayazulu, Maddury; Prakapenka, Vitali B.; Konôpková, Zuzana

doi:10.1126/science.1244989

Cited by 421 publications

(340 citation statements)

References 40 publications

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“…With the increase of pressure, the resistance‐temperature curves have a negative slope, indicating a typical semiconducting character. Generally, high pressure leads to insulator‐to‐metal or semiconductor‐to‐metal transition because of reduction of interatomic distances and strengthening of interatomic interactions 16. The observed metal‐to‐semiconductor transition in Ca 2 N should be attributed to the structural transitions starting at 13.5 GPa, in agreement with in situ XRD results and theory by Zhang et al14 (Figure 1b).…”

Section: Resultssupporting

confidence: 87%

Metal‐to‐Semiconductor Transition and Electronic Dimensionality Reduction of Ca₂N Electride under Pressure

et al. 2018

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The discovery of electrides, in particular, inorganic electrides where electrons substitute anions, has inspired striking interests in the systems that exhibit unusual electronic and catalytic properties. So far, however, the experimental studies of such systems are largely restricted to ambient conditions, unable to understand their interactions between electron localizations and geometrical modifications under external stimuli, e.g., pressure. Here, pressure‐induced structural and electronic evolutions of Ca2N by in situ synchrotron X‐ray diffraction and electrical resistance measurements, and density functional theory calculations with particle swarm optimization algorithms are reported. Experiments and computation are combined to reveal that under compression, Ca2N undergoes structural transforms from R 3true¯ m symmetry to I 4true¯2d phase via an intermediate Fd 3true¯ m phase, and then to Cc phase, accompanied by the reductions of electronic dimensionality from 2D, 1D to 0D. Electrical resistance measurements support a metal‐to‐semiconductor transition in Ca2N because of the reorganizations of confined electrons under pressure, also validated by the calculation. The results demonstrate unexplored experimental evidence for a pressure‐induced metal‐to‐semiconductor switching in Ca2N and offer a possible strategy for producing new electrides under moderate pressure.

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Section: Resultssupporting

confidence: 87%

Metal‐to‐Semiconductor Transition and Electronic Dimensionality Reduction of Ca₂N Electride under Pressure

et al. 2018

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“…A recent example is the prediction of NaCl 3 and Na 3 Cl compounds, which have been confirmed experimentally [27]. Experiments have also demonstrated that molecular H 2 can interact readily with closed-shell molecules at easily accessible pressures (<20 GPa) in the formation of van der Waals compounds, such as SiH 4 -H 2 [28] and H 2 S-H 2 [29].…”

mentioning

confidence: 76%

High-Energy Density and Superhard Nitrogen-Rich B-N Compounds

et al. 2015

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The pressure-induced transformation of diatomic nitrogen into non-molecular polymeric phases may produce potentially useful high-energy-density materials. We combine first-principles calculations with structure searching to predict a new class of nitrogen-rich boron nitrides with a stoichiometry of B 3 N 5 that are stable or metastable relative to solid N 2 and h-BN at ambient pressure. The most stable phase at ambient pressure has a layered structure (h-B 3 N 5 ) containing hexagonal B 3 N 3 layers sandwiched with intercalated freely rotating N 2 molecules. At 15 GPa, a three-dimensional C222 1 structure with single N-N bonds becomes the most stable.This pressure is much lower than that required for triple-to-single bond transformation in pure solid nitrogen (110 GPa). More importantly, C222 1 -B 3 N 5 is metastable, and can be recovered under ambient conditions. Its energy density of ~3.44 kJ/g makes it a potential high-energy-density material. In addition, stress-strain calculations estimate a Vicker's hardness of ~44 GPa. Structure searching reveals a new clathrate sodalite-like BN structure that is metastable under ambient conditions.

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“…[1][2][3][4][5][6][7] On the other hand, ab initio structure predictions [8][9][10][11][12][13][14][15] can produce a huge number of new structures that have either not yet been found experimentally or are metastable. [16][17][18][19][20][21] In both cases, it is essential to quantify similarities and dissimilarities between structures in the data sets, requiring a configurational distance that satisfies the properties of a metric. Databases frequently contain duplicates and insufficiently characterized structures which need to be identified and filtered.…”

Section: Introductionmentioning

confidence: 99%

A fingerprint based metric for measuring similarities of crystalline structures

Zhu

Amsler

Fuhrer

et al. 2016

The Journal of Chemical Physics

117

119

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Measuring similarities/dissimilarities between atomic structures is important for the exploration of potential energy landscapes. However, the cell vectors together with the coordinates of the atoms, which are generally used to describe periodic systems, are quantities not directly suitable as fingerprints to distinguish structures. Based on a characterization of the local environment of all atoms in a cell, we introduce crystal fingerprints that can be calculated easily and define configurational distances between crystalline structures that satisfy the mathematical properties of a metric. This distance between two configurations is a measure of their similarity/dissimilarity and it allows in particular to distinguish structures. The new method can be a useful tool within various energy landscape exploration schemes, such as minima hopping, random search, swarm intelligence algorithms, and high-throughput screenings. C 2016 AIP Publishing LLC. [http://dx

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Unexpected Stable Stoichiometries of Sodium Chlorides

Cited by 421 publications

References 40 publications

Metal‐to‐Semiconductor Transition and Electronic Dimensionality Reduction of Ca₂N Electride under Pressure

Metal‐to‐Semiconductor Transition and Electronic Dimensionality Reduction of Ca₂N Electride under Pressure

High-Energy Density and Superhard Nitrogen-Rich B-N Compounds

A fingerprint based metric for measuring similarities of crystalline structures

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Unexpected Stable Stoichiometries of Sodium Chlorides

Cited by 421 publications

References 40 publications

Metal‐to‐Semiconductor Transition and Electronic Dimensionality Reduction of Ca2N Electride under Pressure

Metal‐to‐Semiconductor Transition and Electronic Dimensionality Reduction of Ca2N Electride under Pressure

High-Energy Density and Superhard Nitrogen-Rich B-N Compounds

A fingerprint based metric for measuring similarities of crystalline structures

Contact Info

Product

Resources

About

Metal‐to‐Semiconductor Transition and Electronic Dimensionality Reduction of Ca₂N Electride under Pressure

Metal‐to‐Semiconductor Transition and Electronic Dimensionality Reduction of Ca₂N Electride under Pressure