Lattice thermal expansion and anisotropic displacements in 𝜶-sulfur from diffraction experiments and first-principles theory

George, Janine; Deringer, Volker L.; Wang, Ai; Müller, Paul; Englert, Ulli; Dronskowski, Richard

doi:10.1063/1.4972068

Cited by 23 publications

(27 citation statements)

References 78 publications

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“…The crystal chemistry of orthorhombic S 8 and the various metastable sulfur modifications is summarized in [18] and [19]. The thermal expansion of orthorhombic sulfur has been studied through temperature-dependent X-ray powder and single-crystal diffraction data [10,16]. Our 150 K data show reasonable agreement with these studies.…”

Section: Crystal Chemistrysupporting

confidence: 55%

“…One should keep in mind that these studies used sulfur from different sources, i.e. crystals grown by evaporation of a CS 2 solution [10] and microcrystalline α-S 8 that resulted from desulfurization reactions in a biorefinery [16].…”

Section: Crystal Chemistrymentioning

confidence: 99%

“…The structure of the low-temperature modification, α-S 8 was first determined in 1935 by Warren and Burwell [3] using crystals grown from CS 2 solution via rotation and oscillation film data. Subsequent studies focused on precise determinations of the lattice parameters, higher accuracy structure refinements, lattice thermal expansion experiments, analyses of thermal vibrations, charge density studies as well as high-pressure experiments up to the amorphization limit [4][5][6][7][8][9][10][11][12][13][14][15][16]. The early work has competently been summarized by Donohue [17], later in reviews on all sulfur modifications by Meyer [18] and Steudel and Eckert [19].…”

Section: Introductionmentioning

confidence: 99%

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Orthorhombic sulfur from Cap Garonne, Mine du Pradet

Kösters

Galéa-Clolus²,

Clolus³

et al. 2018

Zeitschrift Für Naturforschung B

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Section: Crystal Chemistrysupporting

confidence: 55%

Section: Crystal Chemistrymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Orthorhombic sulfur from Cap Garonne, Mine du Pradet

Kösters

Galéa-Clolus²,

Clolus³

et al. 2018

Zeitschrift Für Naturforschung B

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show abstract

“…The hard-sphere model examined in this paper gives intuitive and easy comprehension of the thermal expansion behavior of the layered oxides. The density-functional-thery (DFT) calculation successfully reproduces the linear thermal expansion coefficients of several materials such as Al 75 , S 76 , 4d transition metals 77,78 , Os 78 , MgO 79 , CaO 79 , and ZnO 80 , which is beyond the scope of this paper.…”

Section: Discussionmentioning

confidence: 99%

Thermal Expansion in Layered Na x MO2

Kobayashi

Yanagita

Akaba

et al. 2018

Sci Rep

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Layered oxide NaxMO2 (M: transition metal) is a promising cathode material for sodium-ion secondary battery. Crystal structure of O3- and P2-type NaxMO2 with various M against temperature (T) was systematically investigated by synchrotron x-ray diffraction mainly focusing on the T-dependences of a- and c-axis lattice constants (a and c) and z coordinate (z) of oxygen. Using a hard-sphere model with minimum Madelung energy, we confirmed that c/a and z values in O3-type NaxMO2 were reproduced. We further evaluated the thermal expansion coefficients (αa and αc) along a- and c-axis at 300 K. The anisotropy of the thermal expansion was quantitatively reproduced without adjustable parameters for O3-type NaxMO2. Deviations of z from the model for P2-type NaxMO2 are ascribed to Na vacancies characteristic to the structure.

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“…Although systematic convergence of ab initio cohesive energies of molecular crystals to the sub‐kJ/mol level in particular model cases of methanol, benzene, and carbon dioxide was demonstrated, none of the mentioned methods grants reaching such a high computational accuracy (and affordability at the same time) in a general case. Phenomena such as the thermal expansivity or compressibility of crystals need to be captured realistically to capture finite‐temperature/pressure properties for which the quasi‐harmonic approximation proved to be a reliable tool . Recent studies demonstrate successful applications of the computational methodologies to larger and more flexible molecules, such as selected active pharmaceutical ingredients …”

Section: Introductionmentioning

confidence: 99%

Sublimation Properties of α,ω‐Diamines Revisited from First‐Principles Calculations

Červinka

Štejfa

2020

ChemPhysChem

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Sublimation enthalpies of alkane‐α,ω‐diamines exhibit an odd‐even pattern within their homologous series. First‐principles calculations coupled with the quasi‐harmonic approximation for crystals and with the conformation mixing model for the ideal gas are used to explain this phenomenon from the theoretical point of view. Crystals of the odd and even alkane‐α,ω‐diamines distinctly differ in their packing motifs. However, first‐principles calculations indicate that it is a delicate interplay of the cohesive forces, phonons, molecular vibrations and conformational equilibrium which governs the odd‐even pattern of the sublimation enthalpies within the homologous series. High molecular flexibility of the alkane‐α,ω‐diamines predetermines higher sensitivity of the computational model to the quality of the optimized geometries and relative conformational energies. Performance of high‐throughput computational methods, such as the density functional tight binding (DFTB, GFN2‐xTB) and the explicitly correlated dispersion‐corrected Møller‐Plesset perturbative method (MP2C‐F12), are benchmarked against the consistent state‐of‐the‐art calculations of conformational energies and interaction energies, respectively.

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Lattice thermal expansion and anisotropic displacements in 𝜶-sulfur from diffraction experiments and first-principles theory

Cited by 23 publications

References 78 publications

Orthorhombic sulfur from Cap Garonne, Mine du Pradet

Orthorhombic sulfur from Cap Garonne, Mine du Pradet

Thermal Expansion in Layered Na x MO2

Sublimation Properties of α,ω‐Diamines Revisited from First‐Principles Calculations

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