Your search keyword '"lattice energy"' showing total 103 results

1. Quantum Chemical Study, In Silico ADMET Profile Analysis, Molecular Docking, and MD Simulation of 5-(Furan-2-ylmethylidene) thiazolo[3,4-a] benzimidazole-2-thione.

Author

Youcef, Megrouss, Yahiaoui, Salem, Azayez, Mansour, Kaouche, Chafika Farah, Benyahlou, Zohra Douaa, Kaas, Sid Ahmed, Drissi, Mokhtaria, and Chouaih, Abdelkader

Abstract

In the current study, the most stable optimized structure of the named compound 5-(furan-2-ylmethylidene) thiazolo[3,4-a] benzimidazole-2-thione (FThBZ) was determined using the B3LYP/6-311++G(d,p) basis set. The nature of molecular interactions between molecules in the crystal via different type of bonds was investigated using Lattice Energy analysis and non-covalent reduced density gradient (NC-RDG) and Fukui functions are performed to study the chemical reactivity of the compound. The dipole moment values, first and second order polarizability and hyperpolarizability of the title compound were calculated. A symptom of Alzheimer's is the appearance of amyloid plaques, or senile plaques: made up of aggregates of beta-amyloid peptide between nerve cells. To overcome this effect, there is a need for a potent and effective inhibitor that inhibits the proper functioning of amyloid precursor protein (APP). In this regard, we conducted an in silico docking and molecular dynamics simulation study. [ABSTRACT FROM AUTHOR]

Published

2024

2. Structure and Stability of High Entropy CrMnFeCoNiCu Alloy.

Author

Abzaev, Yu. A., Kolesnikov, V. I., Syrtanov, M. S., Svyazhin, A. D., and Guda, L. V.

Subjects

*CRYSTAL lattices, *SPACE groups, *LATTICE constants, *DIFFRACTION patterns, *CRYSTAL structure

Abstract

In this work, the structure of a CrMnFeCoNiCu high-entropy alloy (HEA) film deposited by magnetron evaporation on a steel substrate is studied. It is established that the phase content of the CrMnFeCoNiCu HEAs is determined by a superposition of contributions from equiatomic simple cubic lattices of the CrMnFeCoNiCu composition (Struct-26 and Struct-278) with space group P1. It is found that the contributions of the diffraction patterns from the reference lattices to the integral intensity are 0.66 and 0.29, respectively. For simple cubic lattices Struct-26 and Struct-278, the full structural information (the lattice parameters, coordinates of atoms, spatial groups, and occupancies) is derived. It is established that the CrMnFeCoNiCu HEA is a stable compound, which is confirmed by calculations of the mixing energy for the convex Hull model. [ABSTRACT FROM AUTHOR]

Published

2024

3. Ionic Bonding

Author

Ubic, Rick and Ubic, Rick

Published

2024

4. Remarkably High Separation of Neodymium from Praseodymium by Selective Dissolution from their Oxide Mixture using an Ionic Liquid Containing aβ‐Diketone.

Author

Sengupta, Arijit, Goyal, Priya, Prava Mantry, Swarna, Sundararajan, Mahesh, Kumar Verma, Parveen, and Kumar Mohapatra, Prasanta

Subjects

*IONIC liquids, *NEODYMIUM, *PRASEODYMIUM, *LIQUID mixtures, *OXIDES, *MIXTURES

Abstract

A simple, efficient, direct and economical method for the mutual separation of Nd and Pr was developed by the selective dissolution of Nd2O3 from their oxide mixtures in an ionic liquid containing 2‐thenoyltrifluoroacetone (HTTA) resulting in an unprecedented separation factor (βNd/Pr)>500, which is 277 times more than the thus far reported βNd/Pr values. The proposed mechanism was supported by DFT computations. [ABSTRACT FROM AUTHOR]

Published

2024

5. Optimized crystal structure and microwave dielectric properties of BaZnSi3O8‐based ceramics.

Author

Cai, Yiyang, Du, Kang, Song, Xiaoqiang, Yin, Changzhi, Cheng, Mingfei, Liu, Yaodong, Li, Xiaoxiao, Lu, Wenzhong, and Lei, Wen

Subjects

*MICROWAVES, *CERAMICS, *DIELECTRIC properties, *CRYSTAL structure, *RIETVELD refinement, *LATTICE constants, *SCANNING electron microscopy

Abstract

In this study, we synthesized BaZnSi3O8‐based compounds with monoclinic structures (P21/a) using a solid‐state method. The crystal structure, phase composition, and microwave dielectric properties of BaZnSi3O8‐based ceramics were systematically investigated systematically. X‐ray diffraction (XRD) patterns and scanning electron microscopy (SEM) images proved that the maximum solubility of BaZn1‐xMgxSi3O8 ranged between 0.3 and 0.4. Rietveld refinement and Phillips–Van Vechten–Levine complex chemical bond theory were used to illustrate the relationship between the microwave dielectric performance and lattice parameters. To further improve the properties, we substituted Ba2+ with Sr2+ in BaZn0.8Mg0.2Si3O8. Ba1‐ySryZn0.8Mg0.2Si3O8 remained in a single‐phase as y increased from 0 to 1.0. We achieved thermal stability of the resonance frequency of the BaZnSi3O8‐based ceramics by adjusting TiO2 to form composite ceramics. After sintering at 1020°C for 5 h, excellent microwave dielectric properties with εr = 7.44, Q×f = 57,400 GHz, and τf = − 0.2 ppm/°C were realized in the SrZn0.8Mg0.2Si3O8+8 wt %TiO2 system. [ABSTRACT FROM AUTHOR]

Published

2024

6. A transferable quantum mechanical energy model for intermolecular interactions using a single empirical parameter

Author

Peter R. Spackman, Mark A. Spackman, and Julian D. Gale

Subjects

computational modelling, lattice energy, molecular crystals, intermolecular interactions, Crystallography, QD901-999

Abstract

The calculation of intermolecular interactions in molecular crystals using model energies provides a unified route to understanding the complex interplay of driving forces in crystallization, elastic properties and more. Presented here is a new single-parameter interaction energy model (CE-1p), extending the previous CrystalExplorer energy model and calibrated using density functional theory (DFT) calculations at the ωB97M-V/def2-QZVP level over 1157 intermolecular interactions from 147 crystal structures. The new model incorporates an improved treatment of dispersion interactions and polarizabilities using the exchange-hole dipole model (XDM), along with the use of effective core potentials (ECPs), facilitating application to molecules containing elements across the periodic table (from H to Rn). This new model is validated against high-level reference data with outstanding performance, comparable to state-of-the-art DFT methods for molecular crystal lattice energies over the X23 set (mean absolute deviation 3.6 kJ mol−1) and for intermolecular interactions in the S66x8 benchmark set (root mean-square deviation 3.3 kJ mol−1). The performance of this model is further examined compared to the GFN2-xTB tight-binding model, providing recommendations for the evaluation of intermolecular interactions in molecular crystal systems.

Published

2023

7. Microstructure evolution, crystal structure, Raman analysis, bond characteristics and enhanced microwave dielectric properties of Zn1-xCuxZrNb2O8 solid solution ceramics.

Author

Wang, Gang, Yan, Hui, Hu, Yunfeng, Ren, Xingang, Yang, Lixia, Huang, Zhixiang, and Wu, Xianliang

Subjects

*CERAMICS, *DIELECTRIC properties, *CRYSTAL structure, *SOLID solutions, *DENSITY functional theory, *CHEMICAL bonds

Abstract

The Structural factors of ceramic materials significantly affect microwave dielectric properties. Consequently, the structure–performance mechanism is essential for providing insight into material discovery and performance refinement. In the present work, Zn 1- x Cu x ZrNb 2 O 8 ceramics were synthesized through oxygen-assisted sintering procedures. The controversy of lattice vibrations was clarified and complete Raman vibration with complete mode assignments were provided for the first time through density functional theory and symmetry analysis. Intrinsic properties, including lattice energy, bond ionicity, thermal expansion coefficient, Raman vibrational states and bond energy, were calculated and the structure–performance relationships were established based on crystal structure refinement, density functional theory, chemical bond theory and Raman analyses. X-ray diffraction patterns and crystal structure refinement indicate a pure phase with the wolframite structure. The smaller ionic radii of Cu2+ ions led to a decrease in cell volume, which could account for the blueshift of the Ag mode at around 340 cm−1. Through Cu2+ substitution, the grain growth was further promoted and morphology evolution from polyhedral grain to rod shape was observed, which may be attributed to grain amalgamation. From chemical bond theory, Cu2+ substitution leads to the decrease in the dielectric constant, which is related to a decrease in the Nb–O bond ionicity (fiNb-O). The improvement in Q×f value is attributed to the high lattice energy of Nb–O bond (UNb–O), low FWHM at 845 cm−1 and large grain size. τ f values are strongly impacted by the bond energies of the Zn/Cu–O bonds in the Zn 1- x Cu x ZrNb 2 O 8 ceramic crystals. Remarkably, microwave dielectric performance of the composition x = 0.06, sintered at 1175 °C, where ε r = 27.9, Q×f = 73,200 GHz (@7.14 GHz) and τ f = −40 ppm/°C, provide potential for millimeter-wave applications. [ABSTRACT FROM AUTHOR]

Published

2023

8. Exploring the influence of lanthanides on the structure and thermodynamic stability of SrLnTh(PO4)3 (Ln = La, Nd, Sm, Eu, and Gd).

Author

Rawat, Deepak and Vats, Bal Govind

Subjects

*RARE earth metals, *STRUCTURAL stability, *HEAT of formation, *RADIOACTIVE waste disposal, *X-ray powder diffraction, *HEAT capacity

Abstract

The disposal of high-level nuclear waste (HLW) presents major challenges due to the presence of a wide range of long-lived radionuclides, necessitating the development of an effective and safe disposal strategy. SrLnTh(PO4)3 (Ln = La–Gd) system was examined to understand the impact of lanthanides on the structure and thermodynamic stability as a host matrix for HLW immobilisation. Solid-state method was used for the synthesis and, powder X-ray diffraction with infrared spectroscopy techniques for their characterization. All compounds were found to crystallize in monazite-type phase with cations Mn+ (Sr2+, Ln3+ and Th4+) randomly occupying the same lattice site, forming MO9 polyhedron. Heat capacities were measured using differential scanning calorimeter. Dissolution enthalpies were measured using solution calorimeter in lead-borate solvent kept at 1067 K and used for determination of enthalpy of formation of the compounds from their constituent oxides ( Δ H f-ox o ) and elements ( Δ H f-ele o ) at 298 K. The results indicate that the enthalpy of formation progressively becomes less exothermic from La3+ to Gd3+ ions, which is also supported by lattice energy calculation using Born–Haber cycle. [ABSTRACT FROM AUTHOR]

Published

2023

9. Solid Phase and Stability Investigation of a Co-Crystal in the l-Valine/l-Leucine System.

Author

Tenberg, Vico, Stein, Matthias, and Lorenz, Heike

Subjects

SOLID solutions, AMINO acids, PHASE diagrams, CHEMICAL purification, SOLIDS, SLURRY, THERMODYNAMICS

Abstract

Some amino acid systems are known to exhibit solid solution and/or co-crystal behavior upon crystallization, which significantly affects their phase diagrams and complicates the design of their purification processes. Such behaviors are observed in the l-valine/l-leucine system. In this work, the formation and stability of a 3:1 co-crystal of the two amino acids (designated as V3L) is further investigated. To accomplish the formation, liquid-assisted grinding, slurry equilibration, and sublimation experiments were performed and analyzed via HPLC and PXRD. Additionally, periodic DFT calculations were used to calculate lattice energies and determine the thermodynamics of possible solid phases. Experimental results show a clear metastability of the investigated V3L co-crystals when compared to its stable solid solution. The calculations underline the metastability and the possible formation of continuous solid solutions between l-valine and l-leucine since lattice energy differences between pure amino acids and mixed compositions are negligible. This previously unknown phase behavior can be used to assess the influence of V3L on the amino acid purification process and provides a basis for investigating similar systems with small energy differences between pure and mixed compositions in future studies. In addition, it demonstrates the particular variability of solid phases and their relationships in such simple but biologically important amino acid systems. [ABSTRACT FROM AUTHOR]

Published

2023

10. A Comparison Study of Roseolumiflavin Solvates: Structural and Energetic Perspective on Their Stability.

Author

Haj Hassani Sohi, Takin, Maass, Felix, Czekelius, Constantin, and Vasylyeva, Vera

Subjects

CRYSTAL lattices, THERMAL stability, INTERMOLECULAR interactions, ACETIC acid, FORMIC acid, HIGH temperatures, SOLVATION

Abstract

Roseolumiflavin is a deep red microcrystalline derivative of isoalloxazine that exhibits a weak photophysical activity in the solid state. In aqueous as well as in acidic solution of formic or acetic acid, respectively, it tends to form solvates. Herein, we present a set of binary and ternary roseolumiflavin solvates including one hydrate and a solvate hydrate. The impact of the solvent on solvate formation along with an in-depth structural analysis was investigated. Calculations of the lattice energies provide insight into the phase stability of the evaluated systems showing an energetic benefit for all solvates with values up to −395.82 kJ/mol. The total interaction energies between molecules calculated via Crystal Explorer further identified cofacial π···π stacks to be the most strongly bonding fragments in the crystal lattices for all systems except the formic acid solvate, followed by remarkably weaker hydrogen-bonded arrangements. The energetic contributions of single intermolecular interactions within the fragments are evaluated by an atoms-in-molecules approach. It is shown that physicochemical properties, such as thermal stability, can be tuned depending on the incorporated solvent molecules despite a high decomposition temperature of the chromophore. [ABSTRACT FROM AUTHOR]

Published

2023

11. The Structure and Microwave Dielectric Properties of MgTi 1− x (Mn 1/3 Nb 2/3) x O 3 Ceramics.

Author

Huang, Huan, Li, Baoyang, Wang, Fanshuo, Lai, Yuanming, and Jiang, Gang

Subjects

DIELECTRIC properties, CERAMICS, SPECIFIC gravity, PERMITTIVITY, MICROWAVES, QUALITY factor

Abstract

MgTi1−x(Mn1/3Nb2/3)xO3 (x = 0–0.30) ceramics were prepared via the solid-state reaction method. The phase composition, microstructure, bond characteristics, and microwave dielectric properties of MgTi1−x(Mn1/3Nb2/3)xO3 (x = 0–0.30) were systematically investigated. The MgTi1−x(Mn1/3Nb2/3)xO3 ceramics presented an ilmenite type with an R-3 space group, and the secondary-phase MgTi2O5 only existed at x = 0 and 0.30. The introduction of (Mn1/3Nb2/3)4+ effectively suppressed the formation of the MgTi2O5 phase. The variation trend of the dielectric constant (εr) was the same as relative density. The quality factor (Qf) value was enhanced by the stable microstructure, which was caused via the lattice energy of Ti/(Mn1/3Nb2/3)-O bonds. And a high Qf value (353,000 GHz) was obtained for MgTi1−x(Mn1/3Nb2/3)xO3 (x = 0.04) ceramics sintered at 1250 °C. In addition, the introduction of Mn2+ ions with a larger ionic radius exacerbates the distortion of TiO6 octahedra, leading to significant fluctuations in the temperature coefficient of the resonance frequency (τf) value. [ABSTRACT FROM AUTHOR]

Published

2023

12. Two Conformational Polymorphs of a Bioactive Pyrazolo[3,4- d ]pyrimidine.

Author

Tan, Sang Loon, Tan, Yee Seng, Ng, Jia Hui, Dolzhenko, Anton V., and Tiekink, Edward R. T.

Subjects

COMPUTATIONAL chemistry, X-ray crystallography, HYDROGEN bonding, PYRIMIDINE derivatives, CRYSTAL structure

Abstract

Two monoclinic (P21/c; Z′ = 1) polymorphs, α (from methanol) and β (from ethanol, n-propanol and iso-propanol), of a bioactive pyrazolo[3,4-d]pyrimidine derivative have been isolated and characterised by X-ray crystallography as well as by a range of computational chemistry techniques. The different conformations observed for the molecules in the crystals are due to the dictates of molecular packing as revealed by geometry-optimisation calculations. The crucial difference in the molecular packing pertains to the formation of phenylamino-N–H···N(pyrazolyl) hydrogen bonding within supramolecular chains with either helical (α-form; 21-screw symmetry) or zigzag (β-form; glide symmetry). As a consequence, the molecular packing is quite distinct in the polymorphs. Lattice energy calculations indicate the β-form is more stable by 11 kJ/mol than the α-form. [ABSTRACT FROM AUTHOR]

Published

2023

13. A step-by-step investigation of sodium chloride clusters: accurate references, assessment of low-cost methods, and convergence from molecule to salt.

Author

Chan, Bun

Subjects

*SINGLE molecules, *SALT, *MOLECULES

Abstract

In the present study, we use high-level coupled-cluster-based methods to obtain benchmark geometries and lattice energy for small sodium chloride clusters up to (NaCl)15. Reliable geometries can be obtained with the CCSD(T)-F12b method in conjunction with a small double-ζ basis set, while accurate energies can be obtained with relatively economical methods (e.g. DLPNO-CCSD(T1)-F12) by adjusting for systematic bias against higher-level methods (e.g. W2). For the calculation of larger clusters, we find PBE0-D3BJ and GFN1-XTB to be suitable for geometry optimisation, while B97M-V and GFN1-XTB provide an adequate means for energy calculations once they are calibrated against high-level references. For much larger systems, a Born–Landé-type model can be used to obtain fairly good lattice energies. The results show the progression from a single NaCl molecule to bulk salt, with full convergence expected for cluster sizes in the range of 5–10 nm. The protocol for obtaining highly accurate lattice energies and calculating large clusters may be used to examine the energetics of ionic clusters more generally. [ABSTRACT FROM AUTHOR]

Published

2023

14. Structural Insights and Intermolecular Energy for Some Medium and Long-Chain Testosterone Esters.

Author

Turza, Alexandru, Pascuta, Petru, Mare, Liviu, Borodi, Gheorghe, and Popescu, Violeta

Subjects

*TESTOSTERONE, *X-ray powder diffraction, *CRYSTAL structure, *SINGLE crystals, *ESTERS, *ANDROGENS

Abstract

Testosterone (17β-Hydroxyandrost-4-en-3-one) is the primary male anabolic-androgenic steroid. The crystal structures of two medium and two long esterified forms of testosterone, including enanthate, cypionate, decanoate and undecanoate, were determined by X-ray single crystal diffraction. The samples were also characterized by powder X-ray diffraction, FT-IR spectroscopy and thermal analysis (DTA, TG). Crystal packings and supramolecular features were described. The analysis of structural features was accomplished by computational methods in terms of the type of intermolecular interactions, crystal energies and Hirshfeld surfaces analysis. From a pharmaceutical point of view, the solubility of compounds was investigated. [ABSTRACT FROM AUTHOR]

Published

2023

15. A Novel Strategy for Comprehensive Estimation of Lattice Energy, Bulk Modulus, Chemical Hardness and Electronic Polarizability of A N B 8-N Binary Inorganic Crystals.

Author

Zhao, Xinyu and Wang, Xiaoli

Subjects

BULK modulus, CHEMICAL bond lengths, HARDNESS, CRYSTALS, MATERIALS science, QUARTZ, ELECTRONIC spectra

Abstract

How to search for a convenient method without a complicated calculation process to predict the physicochemical properties of inorganic crystals through a simple micro-parameter is a greatly important issue in the field of materials science. Herein, this paper presents a new and facile technique for the comprehensive estimation of lattice energy (U), bulk modulus (B), chemical hardness (ƞ), and electronic polarizability (α), just by using a simple mathematic fitting formula with a few structure parameters, such as the systems of rock salt crystals (group I–VII, II–VI) and tetrahedral coordinated crystals (group II–VI, III–V). For the typical binary ANB8-N crystal systems, our present conclusions suggest that a good quantitative correlation between U, B, ƞ, α and chemical bond length (d) is observed, the normal mathematical expression is P = a·db (P represents these physicochemical parameters), constants a and b depend on the type of crystals, and the relevant squares of the correlation coefficient (R2) are larger than 0.9. The results indicate that lattice energy, bulk modulus, and chemical hardness decrease with increases in chemical bond length, but electronic polarizability increases with an increase in chemical bond length. Meanwhile, the new data on the lattice energy, bulk modulus, chemical hardness, and electronic polarizability values of binary ANB8-N crystal systems considered in the present study are calculated via the obtained curve fitting equations without any complex calculation process. We find that there is a very good linear trend in our calculated results along with the values reported in the literature. The present study will be important in solid-state chemistry, which may give researchers useful guidance in searching for relevant data for predicting the properties of new materials or synthetic routes based on a simple mathematic empirical model. [ABSTRACT FROM AUTHOR]

Published

2023

16. Thermal stability of ionic solids: A boiling points survey

Author

Leslie Glasser

Subjects

Lattice energy, Ionic strength, Inorganic materials, Phase transition, Boiling point, Data base, Thermodynamics, QC310.15-319

Abstract

A survey of those standard inorganic materials which boil without sublimation or decomposition has yielded data for 110 unique materials. These separate according to their ambient lattice energies into groups of monohalides, dihalides, trihalides, tetrahalides and lanthanoid oxides. A wide range of boiling points occurs within each group. The lanthanoid oxides have exceptionally high boiling points which are linearly related to the atomic numbers of their lanthanoid cations through their atomic masses.

Published

2023

17. Two Crystal Forms of 4′-Methyl-2,4-dinitrodiphenylamine: Polymorphism Governed by Conformational Flexibility of a Supramolecular Synthon.

Author

Fedyanin, Ivan V. and Samigullina, Aida I.

Subjects

CRYSTALS, SPACE groups, SINGLE crystals, INTERMOLECULAR interactions, X-ray diffraction

Abstract

Single crystals of two polymorphic forms of 4′-methyl-2,4-dinitrodiphenylamine were obtained by crystallization and characterized by X-ray diffraction analysis. One of the forms is non-centrosymmetric (space group P21212), while the second is centrosymmetric (space group P¯1) and contains two crystallographically independent molecules in the asymmetric unit. In both forms, the same supramolecular synthon, a dimer linked by bonding N-H···O, O···O, and C-H···O interactions were found. Despite nearly the same connectivity of the bonding interactions, the conformation of the supramolecular synthon is different, including its unavoidably different symmetry in two polymorphs. The comparison of the crystal packing of the orthorhombic polymorph with that of the related 2,4-dinitrodiphenylamine (space group P21/n) shows the quasi-isostructurality of the fragments, infinite π-stacks joined by weak non-directional intermolecular interactions. However, the fragments are linked by the supramolecular synthons via either a two-fold axis or an inversion center, which lead to only the partial isostructurality of the crystals. [ABSTRACT FROM AUTHOR]

Published

2023

18. Synthesis and crystal structure of Ge(SO4)2.

Author

Daub, Michael, Lindel, Julien, and Hillebrecht, Harald

Subjects

*CRYSTAL structure, *VIBRATIONAL spectra, *FUSED silica, *SINGLE crystals, *OCTAHEDRA, *TETRAHEDRA

Abstract

Colourless single crystals of Ge(SO4)2 were obtained as single phase products from the binary oxides GeO2 and SO3. The reaction was carried out in a silica glass ampule enclosed in an autoclave at 350 °C. Ge(SO4)2 forms a layer structure with corner‐linked GeO6 octahedra and SO4 tetrahedra. The crystal structure (R3‾ ${\bar{3}}$ c, Z=6, a=4.622 Å, c=42.576 Å) belongs to the Ni(ClO4)2‐type. The SO4 tetrahedra are rotated by 24°. The sense of rotation alternates between adjacent layers. This rotation is connected to a super structure with a doubled c‐axis and a disorder between the layers according to the sense of rotation. Ge(SO4)2 is one of the very rare examples of a sulphate of a tetravalent cation and is the representative with the smallest ionic radius. Lattice energy calculations confirm the electrostatic consistency. Vibrational spectra were recorded and show the typical features of GeO6 and SO4 units. [ABSTRACT FROM AUTHOR]

Published

2022

19. Synthesis and crystal structure of Ge(SO4)2.

Author

Daub, Michael, Lindel, Julien, and Hillebrecht, Harald

Subjects

CRYSTAL structure, VIBRATIONAL spectra, FUSED silica, SINGLE crystals, OCTAHEDRA, TETRAHEDRA

Abstract

Colourless single crystals of Ge(SO4)2 were obtained as single phase products from the binary oxides GeO2 and SO3. The reaction was carried out in a silica glass ampule enclosed in an autoclave at 350 °C. Ge(SO4)2 forms a layer structure with corner‐linked GeO6 octahedra and SO4 tetrahedra. The crystal structure (R3‾ ${\bar{3}}$ c, Z=6, a=4.622 Å, c=42.576 Å) belongs to the Ni(ClO4)2‐type. The SO4 tetrahedra are rotated by 24°. The sense of rotation alternates between adjacent layers. This rotation is connected to a super structure with a doubled c‐axis and a disorder between the layers according to the sense of rotation. Ge(SO4)2 is one of the very rare examples of a sulphate of a tetravalent cation and is the representative with the smallest ionic radius. Lattice energy calculations confirm the electrostatic consistency. Vibrational spectra were recorded and show the typical features of GeO6 and SO4 units. [ABSTRACT FROM AUTHOR]

Published

2022

20. Ultra-low temperature sintering and microwave dielectric properties of mg-substituted SrCoV2O7 ceramics

Author

Yu-Ting Huang, Ching-Cheng Huang, Tsung-Hsien Hsu, and Cheng-Liang Huang

Subjects

SrCo1-xMgxV2O7 dielectrics, ULTCC, lattice energy, microwave dielectric properties, Clay industries. Ceramics. Glass, TP785-869

Abstract

SrCo1-xMgxV2O7 (x = 0–0.09) dielectrics were prepared via the solid state route and the effect of Mg substitution on the microwave dielectric properties of the ceramics was systematically investigated. In addition to the relative density and microstructure, the dielectric polarizability, packing fraction, lattice energy and bond valence also play a crucial role in controlling the dielectric properties of the ceramics at microwave frequencies. A high lattice energy representing a high structural stability leads to a low dielectric loss in the specimen. Fluctuated variation of the τf was highly related to the bond valence of the samples. Specimens with x = 0.07 at 660°C revealed the highest Q × f of 23,000 GHz along with an εr of 13.2 and a τf of – 95 ppm/°C and it is chemically compatible with the Al electrode, suggesting that the dielectric is highly promising for ULTCC applications.

Published

2022

21. Exploring the influence of lanthanides on the structure and thermodynamic stability of SrLnTh(PO4)3 (Ln = La, Nd, Sm, Eu, and Gd)

Author

Rawat, Deepak and Vats, Bal Govind

Published

2023

22. Solid Phase and Stability Investigation of a Co-Crystal in the l-Valine/l-Leucine System

Author

Vico Tenberg, Matthias Stein, and Heike Lorenz

Subjects

amino acids, co-crystals, metastability, l-leucine, l-valine, lattice energy, Crystallography, QD901-999

Abstract

Some amino acid systems are known to exhibit solid solution and/or co-crystal behavior upon crystallization, which significantly affects their phase diagrams and complicates the design of their purification processes. Such behaviors are observed in the l-valine/l-leucine system. In this work, the formation and stability of a 3:1 co-crystal of the two amino acids (designated as V3L) is further investigated. To accomplish the formation, liquid-assisted grinding, slurry equilibration, and sublimation experiments were performed and analyzed via HPLC and PXRD. Additionally, periodic DFT calculations were used to calculate lattice energies and determine the thermodynamics of possible solid phases. Experimental results show a clear metastability of the investigated V3L co-crystals when compared to its stable solid solution. The calculations underline the metastability and the possible formation of continuous solid solutions between l-valine and l-leucine since lattice energy differences between pure amino acids and mixed compositions are negligible. This previously unknown phase behavior can be used to assess the influence of V3L on the amino acid purification process and provides a basis for investigating similar systems with small energy differences between pure and mixed compositions in future studies. In addition, it demonstrates the particular variability of solid phases and their relationships in such simple but biologically important amino acid systems.

Published

2023

23. A Comparison Study of Roseolumiflavin Solvates: Structural and Energetic Perspective on Their Stability

Author

Takin Haj Hassani Sohi, Felix Maass, Constantin Czekelius, and Vera Vasylyeva

Subjects

solvate formation, chromophore, phase stability, lattice energy, interaction energy, stacking, Crystallography, QD901-999

Abstract

Roseolumiflavin is a deep red microcrystalline derivative of isoalloxazine that exhibits a weak photophysical activity in the solid state. In aqueous as well as in acidic solution of formic or acetic acid, respectively, it tends to form solvates. Herein, we present a set of binary and ternary roseolumiflavin solvates including one hydrate and a solvate hydrate. The impact of the solvent on solvate formation along with an in-depth structural analysis was investigated. Calculations of the lattice energies provide insight into the phase stability of the evaluated systems showing an energetic benefit for all solvates with values up to −395.82 kJ/mol. The total interaction energies between molecules calculated via Crystal Explorer further identified cofacial π···π stacks to be the most strongly bonding fragments in the crystal lattices for all systems except the formic acid solvate, followed by remarkably weaker hydrogen-bonded arrangements. The energetic contributions of single intermolecular interactions within the fragments are evaluated by an atoms-in-molecules approach. It is shown that physicochemical properties, such as thermal stability, can be tuned depending on the incorporated solvent molecules despite a high decomposition temperature of the chromophore.

Published

2023

24. Structural Aspects and Intermolecular Energy for Some Short Testosterone Esters.

Author

Turza, Alexandru, Popescu, Violeta, Mare, Liviu, and Borodi, Gheorghe

Subjects

*X-ray powder diffraction, *TESTOSTERONE, *ESTERS, *ANDROGENS, *CRYSTAL structure

Abstract

Testosterone (17β-hydroxyandrost-4-en-3-one) is the primary naturally occurring anabolic–androgenic steroid. The crystal structures of three short esterified forms of testosterone, including propionate, phenylpropionate, and isocaproate ester, were determined via single-crystal X-ray diffraction. Furthermore, all the samples were investigated using powder X-ray diffraction, and their structural features were described and evaluated in terms of crystal energies and Hirshfeld surfaces. They were also compared with the base form of testosterone (without ester) and the acetate ester. Moreover, from a pharmaceutical perspective, their solubility was evaluated and correlated with the length of the ester. [ABSTRACT FROM AUTHOR]

Published

2022

25. Cu 2+ -Ion-Substitution-Driven Microstructure and Microwave Dielectric Properties of Mg 1− x Cu x Al 2 O 4 Ceramics.

Author

Lai, Yuanming, Yin, Ming, Li, Baoyang, Yang, Xizhi, Gong, Weiping, Yang, Fan, Zhang, Qin, Wang, Fanshuo, Wu, Chongsheng, and Li, Haijian

Subjects

*DIELECTRIC properties, *MICROWAVES, *PERMITTIVITY, *CERAMICS, *SPECIFIC gravity, *QUALITY factor

Abstract

In this work, Cu-substituted MgAl2O4 ceramics were prepared via solid-state reaction. The crystal structure, cation distribution, and microwave dielectric properties of Mg1−xCuxAl2O4 ceramics were investigated. Cu2+ entered the MgAl2O4 lattice and formed a spinel structure. The substitution of Cu2+ ions for Mg2+ ions contributed to Al3+ ions preferential occupation of the octahedron and changed the degree of inversion. The quality factor (Qf) value, which is correlated with the degree of inversion, increased to a maximum value at x = 0.04 and then decreased. Ionic polarizability and relative density affected the dielectric constant (εr) value. The temperature coefficient of the resonant frequency (τf) value, which was dominated by the total bond energy, generally shifted to the positive direction. Satisfactory microwave dielectric properties were achieved in x = 0.04 and sintered at 1550 °C: εr = 8.28, Qf = 72,800 GHz, and τf = −59 ppm/°C. The Mg1−xCuxAl2O4 solid solution, possessing good performance, has potential for application in the field of modern telecommunication technology. [ABSTRACT FROM AUTHOR]

Published

2022

26. Designing Alkylammonium Cations for Enhanced Solubility of Anionic Active Materials in Redox Flow Batteries: The Role of Bulk and Chain Length.

Author

Mayes ML, Visayas BR, Pahari S, Poudel T, Golen J, and Cappillino P

Abstract

Advancing grid-scale energy storage technologies is crucial for realizing a fully renewable energy landscape, with non-aqueous redox flow batteries (NRFBs) presenting a promising solution. One of the current challenges in NRFBs stems from the low energy density of redox active materials, primarily due to their limited solubility in non-aqueous solvents. Herein, this study explores the solubility of vanadium(IV/V) bis-hydroxyiminodiacetate (VBH) crystals in acetonitrile, aiming to use them as anionic catholytes in NRFBs. We focused on enhancing VBH solubility by modifying the structure of the alkylammonium cation. Employing periodic density functional theory and a solvation model, we calculated the dissolution free energy ([[EQUATION]]), which includes sublimation ([[EQUATION]]) and solvation ([[EQUATION]]) energies. Our results indicate that neither elongating straight-chain alkyl groups beyond a tetrabutylammonium baseline nor introducing bulky substituents at the nitrogen center significantly enhances solubility. However, the introduction of carbon spacers combined with terminal bulky substituents markedly improves solubility by favorably altering both [[EQUATION]] and [[EQUATION]]. These findings underline the nuanced impact of cation structure on solubility and suggest a viable approach to optimize VBH-based anionic catholytes. This advancement promises to enhance NRFB efficiency and sustainability, marking a significant step forward in energy storage technology., (© 2024 Wiley‐VCH GmbH.)

Published

2024

27. The Structure and Microwave Dielectric Properties of MgTi1−x(Mn1/3Nb2/3)xO3 Ceramics

Author

Huan Huang, Baoyang Li, Fanshuo Wang, Yuanming Lai, and Gang Jiang

Subjects

MgTiO3 ceramic co-substitution, microwave dielectric properties, lattice energy, octahedral distortion, Crystallography, QD901-999

Abstract

MgTi1−x(Mn1/3Nb2/3)xO3 (x = 0–0.30) ceramics were prepared via the solid-state reaction method. The phase composition, microstructure, bond characteristics, and microwave dielectric properties of MgTi1−x(Mn1/3Nb2/3)xO3 (x = 0–0.30) were systematically investigated. The MgTi1−x(Mn1/3Nb2/3)xO3 ceramics presented an ilmenite type with an R-3 space group, and the secondary-phase MgTi2O5 only existed at x = 0 and 0.30. The introduction of (Mn1/3Nb2/3)4+ effectively suppressed the formation of the MgTi2O5 phase. The variation trend of the dielectric constant (εr) was the same as relative density. The quality factor (Qf) value was enhanced by the stable microstructure, which was caused via the lattice energy of Ti/(Mn1/3Nb2/3)-O bonds. And a high Qf value (353,000 GHz) was obtained for MgTi1−x(Mn1/3Nb2/3)xO3 (x = 0.04) ceramics sintered at 1250 °C. In addition, the introduction of Mn2+ ions with a larger ionic radius exacerbates the distortion of TiO6 octahedra, leading to significant fluctuations in the temperature coefficient of the resonance frequency (τf) value.

Published

2023

28. Two Conformational Polymorphs of a Bioactive Pyrazolo[3,4-d]pyrimidine

Author

Sang Loon Tan, Yee Seng Tan, Jia Hui Ng, Anton V. Dolzhenko, and Edward R. T. Tiekink

Subjects

polymorphism, crystal structure, lattice energy, Hirshfeld surface analysis, interaction energy, Crystallography, QD901-999

Abstract

Two monoclinic (P21/c; Z′ = 1) polymorphs, α (from methanol) and β (from ethanol, n-propanol and iso-propanol), of a bioactive pyrazolo[3,4-d]pyrimidine derivative have been isolated and characterised by X-ray crystallography as well as by a range of computational chemistry techniques. The different conformations observed for the molecules in the crystals are due to the dictates of molecular packing as revealed by geometry-optimisation calculations. The crucial difference in the molecular packing pertains to the formation of phenylamino-N–H···N(pyrazolyl) hydrogen bonding within supramolecular chains with either helical (α-form; 21-screw symmetry) or zigzag (β-form; glide symmetry). As a consequence, the molecular packing is quite distinct in the polymorphs. Lattice energy calculations indicate the β-form is more stable by 11 kJ/mol than the α-form.

Published

2023

29. Ultra-low temperature sintering and temperature stable microwave dielectrics of phase pure AgMgVO4 ceramics.

Author

Huang, Cheng-Liang and Hsu, Tsung-Hsien

Subjects

*CERAMICS, *DIELECTRICS, *DIELECTRIC properties, *ALUMINUM electrodes, *SPECIFIC gravity, *MICROWAVES

Abstract

The present study systematically invesitgates the formation and microwave dielectric properties of novel AgMgVO 4 ceramics fabricated via the solid-state reaction method. The crystal structure of the ceramics is confirmed to be orthorhombic with a space Group of Pnma (62). A high relative density of 96.2% and an excellent combination of microwave dielectric properties with ε r of ~14.89, Q × f of ~19,400 GHz, and τ f of ~ − 2.71 ppm/°C can be achieved for the ceramic sintered at 630 °C. The dielectric constant is mainly influenced by the relative density (porosity) and dielectric polarizability. The Q × f is controlled by the microstructure, packing fraction, and lattice energy, which are also highly related to the unit-cell volume. A smaller unit-cell volume leads to a high Q × f. Variation of the τ f is strongly correlated to the bond valence of the specimen. Furthermore, the ceramic exhibits good chemical compatibility with aluminum electrodes and is demonstrated as a potent substrate for a band-pass filter with a center frequency of 3.5 GHz. These findings show a great promise for ultra-low temperature co-fired ceramic applications at high frequencies. [ABSTRACT FROM AUTHOR]

Published

2022

30. A Novel Strategy for Comprehensive Estimation of Lattice Energy, Bulk Modulus, Chemical Hardness and Electronic Polarizability of ANB8-N Binary Inorganic Crystals

Author

Xinyu Zhao and Xiaoli Wang

Subjects

inorganic crystals, lattice energy, bulk modulus, chemical hardness, electronic polarizability, chemical bond length, Crystallography, QD901-999

Abstract

How to search for a convenient method without a complicated calculation process to predict the physicochemical properties of inorganic crystals through a simple micro-parameter is a greatly important issue in the field of materials science. Herein, this paper presents a new and facile technique for the comprehensive estimation of lattice energy (U), bulk modulus (B), chemical hardness (ƞ), and electronic polarizability (α), just by using a simple mathematic fitting formula with a few structure parameters, such as the systems of rock salt crystals (group I–VII, II–VI) and tetrahedral coordinated crystals (group II–VI, III–V). For the typical binary ANB8-N crystal systems, our present conclusions suggest that a good quantitative correlation between U, B, ƞ, α and chemical bond length (d) is observed, the normal mathematical expression is P = a·db (P represents these physicochemical parameters), constants a and b depend on the type of crystals, and the relevant squares of the correlation coefficient (R2) are larger than 0.9. The results indicate that lattice energy, bulk modulus, and chemical hardness decrease with increases in chemical bond length, but electronic polarizability increases with an increase in chemical bond length. Meanwhile, the new data on the lattice energy, bulk modulus, chemical hardness, and electronic polarizability values of binary ANB8-N crystal systems considered in the present study are calculated via the obtained curve fitting equations without any complex calculation process. We find that there is a very good linear trend in our calculated results along with the values reported in the literature. The present study will be important in solid-state chemistry, which may give researchers useful guidance in searching for relevant data for predicting the properties of new materials or synthetic routes based on a simple mathematic empirical model.

Published

2023

31. Structural Insights and Intermolecular Energy for Some Medium and Long-Chain Testosterone Esters

Author

Alexandru Turza, Petru Pascuta, Liviu Mare, Gheorghe Borodi, and Violeta Popescu

Subjects

testosterone, ester, crystal structure, lattice energy, solubility, Organic chemistry, QD241-441

Abstract

Testosterone (17β-Hydroxyandrost-4-en-3-one) is the primary male anabolic-androgenic steroid. The crystal structures of two medium and two long esterified forms of testosterone, including enanthate, cypionate, decanoate and undecanoate, were determined by X-ray single crystal diffraction. The samples were also characterized by powder X-ray diffraction, FT-IR spectroscopy and thermal analysis (DTA, TG). Crystal packings and supramolecular features were described. The analysis of structural features was accomplished by computational methods in terms of the type of intermolecular interactions, crystal energies and Hirshfeld surfaces analysis. From a pharmaceutical point of view, the solubility of compounds was investigated.

Published

2023

32. Relationship between crystal structure and thermal properties of polymorphic system methylethanolammonium 2-chloro-4-nitrobenzoate.

Author

Croitor, Lilia, Vlase, Gabriela, Vlase, Titus, Bourosh, Paulina N., Chumakov, Yurii M., and Crisan, Manuela

Subjects

*CRYSTAL structure, *THERMAL properties, *LATENT heat of fusion, *MELTING points, *CHEMICAL processes

Abstract

The crystal structures and thermal characteristics of two polymorphs of methylethanolammonium 2-chloro-4-nitrobenzoate were investigated by a combined experimental and computational approach. The main attention was paid to the synthesis of polymorphs, structural characterization associated with computational studies on the nature of intermolecular interactions, and thermodynamic stability relationship between the polymorphs and thermal decomposition kinetics. Analysis of the polymorphs structure revealed distinct crystal packing arrangements and different numbers of independent molecules pairs in the asymmetric crystal unit. Depending on the conformation of cations, polymorphs α and β exhibit the formation of different charge-assisted and normal hydrogen bonds, while in β, non-covalent interactions of halogens are also manifested. The calculated values of the lattice energies indicated that α has a more stable lattice than β at high temperatures. The thermodynamic stability relationship between the polymorphs pair is monotropic and is determined by measuring melting points and heats of fusion. The kinetics of thermal decomposition processes has been comparatively studied by two different kinetic methods. The results showed higher activation energies for α compared to β. According to the modified nonparametric kinetic method, the decomposition mechanism revealed two distinct stages in both polymorphs, indicating one predominant chemical degradation process followed by a physical transformation process. [ABSTRACT FROM AUTHOR]

Published

2022

33. Study on Extraction Performance of Vanadium (V) from Aqueous Solution by Octyl-Imidazole Ionic Liquids Extractants.

Author

He, Jingui, Tao, Wenju, and Dong, Guozhen

Subjects

IONIC solutions, VANADIUM, AQUEOUS solutions, STRUCTURE-activity relationships, IONIC liquids, PERFORMANCE theory

Abstract

It is worth it to explore the extraction performance for vanadium by the imidazole ionic liquids. The extraction of vanadium (V) was studied using [Omim]Cl, [Omim]Br, and [Omim][BF4] as extractants. The effects of various diluents, equilibrium time, extraction temperature, and anion species were investigated. The structure-activity relationship of vanadium and ILs was discussed by calculating the lattice energy of ILs based on the Glasser theory and the volume of anions. The results show that n-pentanol is the optimum diluent. Under the extraction conditions of an equilibrium time of 60 s and extraction temperature of 25 °C, the extraction rates of V (V) by [Omim]Cl, [Omim]Br, and [Omim][BF4] reached 97.93%, 96.59%, and 87.01%, respectively. Furthermore, based on the Glasser theory, the lattice energy of ionic liquids decreased in the order [Omim]Cl > [Omim]Br > [Omim]BF4. The volume of the anions increased in the order Cl− < Br− < BF4− < HVO42−. The extraction rate of V (V) depended on the size of the anions and the strength of the interaction between the anion and imidazolium cation. The results of counterevidence experiments verified the larger the anion volume, the easier it is to combine with cation in the organic phase, and the lattice energy of extracted compound is lower. The statistical analysis showed that the effect of the equilibrium time and temperature were not significant in the model, and the anions species showed a significant effect on the extraction efficiency of V (V). [ABSTRACT FROM AUTHOR]

Published

2022

34. Synthesis, crystal structure, molecular docking, lattice energy and Hirshfeld surface analysis of an antituberculosis drug of (E)-2-methoxy-5-(((6-methoxypyridin-3yl)imino)methyl)phenol.

Author

Sharma, Gopal, Anthal, Sumati, Akhileshwari, P., Vinusha, H. M., Bindya, S., Sridhar, M. A., Begum, Muneera, Chandrasekaran, Ravikumar, Saminathan, Murugavel, and Kant, Rajni

Subjects

*MOLECULAR docking, *SURFACE analysis, *ANTITUBERCULAR agents, *CRYSTAL structure, *DRUG analysis

Abstract

Synthesis, X-ray structure, molecular docking, lattice energy and Hirshfeld surface analysis of (E)-2-methoxy-5-(((6-methoxypyridin-3yl)imino)methyl)phenol (MMPIMP) is presented in this paper. The compound crystallizes in the monoclinic space group P21/c with unit cell parameters: a = 5.6149 (2), b = 14.5520 (5), c = 29.9813 (8) Å, β = 94.795 (3) and Z = 8. The asymmetric unit contains two crystallographically independent molecules (A and B) and the structure was solved by direct methods using single-crystal X-ray diffraction data and refined by full-matrix least-squares procedure to a final value of R = 0.050 and wR2 = 0.1231 for 3536 observed reflections. The molecular packing in the unit cell is stabilized via O – H... N and C – H... O intermolecular hydrogen bonds. In the crystal packing, pairs of intermolecular hydrogen bonds of the type O–H...N links the molecules into dimers, forming R 2 2 (20) ring motif. To understand the nature and strength of intermolecular interaction in terms of its energy and their quantitative contributions toward the molecular packing, lattice energy analysis was carried out by using PIXEL software. Molecular docking studies were executed to realize the inhibitory activity of the compound MMPIMP against DprE1 (PDB code: 4KW5). The analysis of the Hirshfeld surface and its associated two dimension fingerprint plots has been carried out to examine the intermolecular contacts in the crystal structure. [ABSTRACT FROM AUTHOR]

Published

2022

35. CAMBRIDGE STRUCTURE DATABASE ANALYSIS OF MOLECULAR INTERACTION ENERGIES IN BROMINE-SUBSTITUTED COUMARIN STRUCTURES.

Author

Stondus, Jigmat and Kant, Rajni

Subjects

*MOLECULAR interactions, *INTERMOLECULAR interactions, *HYDROGEN bonding interactions, *CRYSTAL structure, *COUMARIN derivatives, *BROMINE

Abstract

Although the non-covalent interactions such as hydrogen bonds and Van der Waals bonds are considered as weak but have a significant impact on the characteristics of the molecule in solution and the crystalline phase. The nature and strength of such intermolecular interactions result in various physicochemical and biological properties in crystal structures. In the present study, a quantitative analysis of intermolecular interaction in the crystal packing of some bromine substituted coumarin derivatives has been undertaken for lattice energy and intermolecular interaction energies analyses using a computational approach. The analysis shows that the energy contribution of halogen bonds such as C-Br...O and C-Br...π is quite significant in the crystal structures of bromine substituted coumarins. Besides, the C-H...O, C-H...Br and π...π interactions are also found to have a profound effect on the molecular packing of these structures. Molecular interactions with reference to the packing mechanism in each molecule are studied in detail. It is expected that empirical analysis of molecular energy interactions will help in understanding the role of various structural motifs in crystal packing. [ABSTRACT FROM AUTHOR]

Published

2022

36. Investigation of crystal structures, energetics and isostructurality in halogen‐substituted phosphoramidates.

Author

Hasija, Avantika, Som, Shubham, and Chopra, Deepak

Subjects

*CRYSTAL structure, *PHOSPHORAMIDATES, *MOLECULAR crystals, *DIHEDRAL angles, *HYDROGEN bonding, *DIMERS

Abstract

A total of 14 compounds, one unsubstituted and 13 halogen‐substituted phosphoramidates, have been synthesized from unsubstituted and halogenated (fluoro‐, difluoro‐, chloro‐, bromo‐, iodo‐substituted) aniline and diphenyl phosphoryl chloride to investigate their molecular assembly in solid‐state structures. Amongst them, six groups were formed based on similarities in unit‐cell dimensions, space group and molecular assembly of the crystal. The analysis reveals that all the crystal structures contain robust N—H...O hydrogen bonds which are the primary building blocks with ancillary interactions such as C—H...O, C—H...π, C—H...F/Cl/Br/I, F...F, F...π, I...π, Br...π, I...O and Br...O. The role of short and directional C—H...O and C—H...π interactions providing significant stabilization to the densely packed crystalline arrangement is discussed. The contribution of these interactions in stabilizing the crystalline assembly was deduced via computing total interaction energy between dimers and the overall lattice energies using the computer programs Crystal Explorer 17.5 and PIXELC, respectively. Additionally, the occurrence of 3D isostructurality in phosphoradimates and their halogenated analogs was investigated using the XPac program. A comparison of the magnitudes of the torsion angles in the compounds substantiates the role of conformational flexibility in the solid state. [ABSTRACT FROM AUTHOR]

Published

2022

37. Ultra-low temperature sintering and microwave dielectric properties of mg-substituted SrCoV2O7 ceramics.

Author

Huang, Yu-Ting, Huang, Ching-Cheng, Hsu, Tsung-Hsien, and Huang, Cheng-Liang

Subjects

MICROWAVES, DIELECTRIC properties, CERAMICS, MICROWAVE sintering, DIELECTRIC loss, SPECIFIC gravity, VALENCE bonds

Abstract

SrCo1-xMgxV2O7 (x = 0–0.09) dielectrics were prepared via the solid state route and the effect of Mg substitution on the microwave dielectric properties of the ceramics was systematically investigated. In addition to the relative density and microstructure, the dielectric polarizability, packing fraction, lattice energy and bond valence also play a crucial role in controlling the dielectric properties of the ceramics at microwave frequencies. A high lattice energy representing a high structural stability leads to a low dielectric loss in the specimen. Fluctuated variation of the τf was highly related to the bond valence of the samples. Specimens with x = 0.07 at 660°C revealed the highest Q × f of 23,000 GHz along with an εr of 13.2 and a τf of – 95 ppm/°C and it is chemically compatible with the Al electrode, suggesting that the dielectric is highly promising for ULTCC applications. [ABSTRACT FROM AUTHOR]

Published

2022

38. Kinetic study on microwave-enhanced direct reduction of titanomagnetite concentrate with coal

Author

Liu, Peng, Gong, Si-yu, Chao, Yu-wen, Liu, Bing-guo, Zhang, Li-bo, and Wu, En-hui

Published

2023

39. Two Crystal Forms of 4′-Methyl-2,4-dinitrodiphenylamine: Polymorphism Governed by Conformational Flexibility of a Supramolecular Synthon

Author

Ivan V. Fedyanin and Aida I. Samigullina

Subjects

polymorphism, supramolecular synthons, isostructurality, lattice energy, electron density, Crystallography, QD901-999

Abstract

Single crystals of two polymorphic forms of 4′-methyl-2,4-dinitrodiphenylamine were obtained by crystallization and characterized by X-ray diffraction analysis. One of the forms is non-centrosymmetric (space group P21212), while the second is centrosymmetric (space group P¯1) and contains two crystallographically independent molecules in the asymmetric unit. In both forms, the same supramolecular synthon, a dimer linked by bonding N-H···O, O···O, and C-H···O interactions were found. Despite nearly the same connectivity of the bonding interactions, the conformation of the supramolecular synthon is different, including its unavoidably different symmetry in two polymorphs. The comparison of the crystal packing of the orthorhombic polymorph with that of the related 2,4-dinitrodiphenylamine (space group P21/n) shows the quasi-isostructurality of the fragments, infinite π-stacks joined by weak non-directional intermolecular interactions. However, the fragments are linked by the supramolecular synthons via either a two-fold axis or an inversion center, which lead to only the partial isostructurality of the crystals.

Published

2023

40. The structure evolution and lattice energy of spinel-structured Li(Mg0.5Ti0.5)xGa5−xO8 microwave dielectric ceramics.

Author

Zhao, Xiangguang, Tang, Ying, Li, Jie, Fang, Weishuang, Ao, Laiyuan, Shiyao shen, and Fang, Liang

Subjects

*THERAPEUTIC use of lithium, *SPACE groups, *DIELECTRIC properties, *MICROWAVES, *PERMITTIVITY, *SPINEL group, *LITHIUM titanate

Abstract

The microwave dielectric properties of spinel-structured Li(Mg 0.5 Ti 0.5) x Ga 5− x O 8 (0 ≤ x ≤ 1) ceramics were researched together with their microstructures. The X-ray diffraction and Raman spectroscopic revealed that an ordered spinel structure in 1: 3 B-site ordering with space group P 4 3 32 was formed in the composition range of 0 = x ≤ 0.25, and a disordered spinel with space group Fd -3 m was formed in 0.5 = x ≤ 1. All the ceramics were compact with uniform grain, clear grain boundaries and high relative density (ρ relative ≥ 95 %). With the substitution of [Mg 0.5 Ti 0.5 ]3+ for Ga3+ increased, the dielectric constant (ε r) increased from 10.48 to 11.28, which was related to the increased molar ionic polarizability (α theo / V m) and B-site bond ionicity. The temperature coefficient of the resonant frequency (τ f) slightly increased from −66.27 ppm/°C to −61.45 ppm/°C, due to the decrease of B-site bond valence. The Q × f value firstly decreased from 125,400 GHz to 50,381 GHz and then increased to 85,360 GHz, which was affected by the intrinsic loss analyzed by lattice energy. The optimal microwave dielectric properties were obtained for LiMg 0.5 Ti 0.5 Ga 4 O 8 ceramic (x = 1) sintered at 1260 °C with ε r = 11.28, Q × f = 85,360 GHz and τ f = −61.45 ppm/°C. [ABSTRACT FROM AUTHOR]

Published

2021

41. Structural Aspects and Intermolecular Energy for Some Short Testosterone Esters

Author

Alexandru Turza, Violeta Popescu, Liviu Mare, and Gheorghe Borodi

Subjects

17β-hydroxyandrost-4-en-3-one, testosterone, ester, crystal structure, lattice energy, solubility, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

Testosterone (17β-hydroxyandrost-4-en-3-one) is the primary naturally occurring anabolic–androgenic steroid. The crystal structures of three short esterified forms of testosterone, including propionate, phenylpropionate, and isocaproate ester, were determined via single-crystal X-ray diffraction. Furthermore, all the samples were investigated using powder X-ray diffraction, and their structural features were described and evaluated in terms of crystal energies and Hirshfeld surfaces. They were also compared with the base form of testosterone (without ester) and the acetate ester. Moreover, from a pharmaceutical perspective, their solubility was evaluated and correlated with the length of the ester.

Published

2022

42. Cu2+-Ion-Substitution-Driven Microstructure and Microwave Dielectric Properties of Mg1−xCuxAl2O4 Ceramics

Author

Yuanming Lai, Ming Yin, Baoyang Li, Xizhi Yang, Weiping Gong, Fan Yang, Qin Zhang, Fanshuo Wang, Chongsheng Wu, and Haijian Li

Subjects

microwave dielectric properties, MgAl2O4 ceramics, solid solution, lattice energy, bond energy, Chemistry, QD1-999

Abstract

In this work, Cu-substituted MgAl2O4 ceramics were prepared via solid-state reaction. The crystal structure, cation distribution, and microwave dielectric properties of Mg1−xCuxAl2O4 ceramics were investigated. Cu2+ entered the MgAl2O4 lattice and formed a spinel structure. The substitution of Cu2+ ions for Mg2+ ions contributed to Al3+ ions preferential occupation of the octahedron and changed the degree of inversion. The quality factor (Qf) value, which is correlated with the degree of inversion, increased to a maximum value at x = 0.04 and then decreased. Ionic polarizability and relative density affected the dielectric constant (εr) value. The temperature coefficient of the resonant frequency (τf) value, which was dominated by the total bond energy, generally shifted to the positive direction. Satisfactory microwave dielectric properties were achieved in x = 0.04 and sintered at 1550 °C: εr = 8.28, Qf = 72,800 GHz, and τf = −59 ppm/°C. The Mg1−xCuxAl2O4 solid solution, possessing good performance, has potential for application in the field of modern telecommunication technology.

Published

2022

43. Study on Extraction Performance of Vanadium (V) from Aqueous Solution by Octyl-Imidazole Ionic Liquids Extractants

Author

Jingui He, Wenju Tao, and Guozhen Dong

Subjects

ionic liquids, vanadium, anions, lattice energy, Mining engineering. Metallurgy, TN1-997

Abstract

It is worth it to explore the extraction performance for vanadium by the imidazole ionic liquids. The extraction of vanadium (V) was studied using [Omim]Cl, [Omim]Br, and [Omim][BF4] as extractants. The effects of various diluents, equilibrium time, extraction temperature, and anion species were investigated. The structure-activity relationship of vanadium and ILs was discussed by calculating the lattice energy of ILs based on the Glasser theory and the volume of anions. The results show that n-pentanol is the optimum diluent. Under the extraction conditions of an equilibrium time of 60 s and extraction temperature of 25 °C, the extraction rates of V (V) by [Omim]Cl, [Omim]Br, and [Omim][BF4] reached 97.93%, 96.59%, and 87.01%, respectively. Furthermore, based on the Glasser theory, the lattice energy of ionic liquids decreased in the order [Omim]Cl > [Omim]Br > [Omim]BF4. The volume of the anions increased in the order Cl− < Br− < BF4− < HVO42−. The extraction rate of V (V) depended on the size of the anions and the strength of the interaction between the anion and imidazolium cation. The results of counterevidence experiments verified the larger the anion volume, the easier it is to combine with cation in the organic phase, and the lattice energy of extracted compound is lower. The statistical analysis showed that the effect of the equilibrium time and temperature were not significant in the model, and the anions species showed a significant effect on the extraction efficiency of V (V).

Published

2022

44. Physical binding energies using the electron localization function in 4-hydroxyphenylboronic acid co-crystals with aza donors

Author

Mayura, Talwelkar Shimpi, Sajjad, Muhammad, Oberg, Sven, Larsson, J. Andreas, Mayura, Talwelkar Shimpi, Sajjad, Muhammad, Oberg, Sven, and Larsson, J. Andreas

Abstract

Binding energies are traditionally simulated using cluster models by computation of each synthon for each individual co-crystal former. However, our investigation of the binding strengths using the electron localization function (ELF) reveals that these can be determined directly from the crystal supercell computations. We propose a new modeling protocol for the computation of physical binding energies directly from bulk simulations using ELF analysis. In this work, we establish a correlation between ELF values and binding energies calculated for co-crystals of 4-hydroxyphenylboronic acid (4HPBA) with four different aza donors using density functional theory with varying descriptions of dispersion. Boronic acids are gaining significant interest in the field of crystal engineering, but theoretical studies on their use in materials are still very limited. Here, we present a systematic investigation of the non-covalent interactions in experimentally realized co-crystals. Prior diffraction studies on these complexes have shown the competitive nature between the boronic acid functional group and the para-substituted phenolic group forming heteromeric interactions with aza donors. We determine the stability of the co-crystals by simulating their lattice energies, and the different dispersion descriptions show similar trends in lattice energies and lattice parameters. Our study bolsters the experimental observation of the boronic acid group as a competitive co-crystal former in addition to the well-studied phenolic group. Further research on correlating ELF values for physical binding could potentially transform this approach to a viable alternative for the computation of binding energies.

Published

2023

45. Physical binding energies using the electron localization function in 4-hydroxyphenylboronic acid co-crystals with aza donors

Author

Talwelkar Shimpi, Mayura, Sajjad, Muhammad, Öberg, Sven, Larsson, J. Andreas, Talwelkar Shimpi, Mayura, Sajjad, Muhammad, Öberg, Sven, and Larsson, J. Andreas

Abstract

Binding energies are traditionally simulated using cluster models by computation of each synthon for each individual co-crystal former. However, our investigation of the binding strengths using the electron localization function (ELF) reveals that these can be determined directly from the crystal supercell computations. We propose a new modeling protocol for the computation of physical binding energies directly from bulk simulations using ELF analysis. In this work, we establish a correlation between ELF values and binding energies calculated for co-crystals of 4-hydroxyphenylboronic acid (4HPBA) with four different aza donors using density functional theory with varying descriptions of dispersion. Boronic acids are gaining significant interest in the field of crystal engineering, but theoretical studies on their use in materials are still very limited. Here, we present a systematic investigation of the non-covalent interactions in experimentally realized co-crystals. Prior diffraction studies on these complexes have shown the competitive nature between the boronic acid functional group and the para-substituted phenolic group forming heteromeric interactions with aza donors. We determine the stability of the co-crystals by simulating their lattice energies, and the different dispersion descriptions show similar trends in lattice energies and lattice parameters. Our study bolsters the experimental observation of the boronic acid group as a competitive co-crystal former in addition to the well-studied phenolic group. Further research on correlating ELF values for physical binding could potentially transform this approach to a viable alternative for the computation of binding energies., Validerad;2023;Nivå 2;2023-10-31 (hanlid);Licens full text: CC BY

Published

2023

46. A transferable quantum mechanical energy model for intermolecular interactions using a single empirical parameter

Author

Spackman, Peter, Spackman, M.A., Gale, Julian, Spackman, Peter, Spackman, M.A., and Gale, Julian

Abstract

The calculation of intermolecular interactions in molecular crystals using model energies provides a unified route to understanding the complex interplay of driving forces in crystallization, elastic properties and more. Presented here is a new single-parameter interaction energy model (CE-1p), extending the previous CrystalExplorer energy model and calibrated using density functional theory (DFT) calculations at the !B97M-V/def2-QZVP level over 1157 intermolecular interactions from 147 crystal structures. The new model incorporates an improved treatment of dispersion interactions and polarizabilities using the exchange-hole dipole model (XDM), along with the use of effective core potentials (ECPs), facilitating application to molecules containing elements across the periodic table (from H to Rn). This new model is validated against high-level reference data with outstanding performance, comparable to state-of-the-art DFT methods for molecular crystal lattice energies over the X23 set (mean absolute deviation 3.6 kJ mol–1) and for intermolecular interactions in the S66x8 benchmark set (root mean-square deviation 3.3 kJ mol–1). The performance of this model is further examined compared to the GFN2-xTB tight-binding model, providing recommendations for the evaluation of intermolecular interactions in molecular crystal systems.

Published

2023

47. Research on even-odd effects of bio-based Nylon nF salts.

Author

Shi, Yuzhong, Fu, Jinqiu, Wang, Yingying, Hou, Yihang, Guo, Rongxi, Cai, Mengyang, Zhang, Yajie, Ying, Hanjie, Yang, Pengpeng, and Zhang, Keke

Subjects

*X-ray powder diffraction, *NYLON, *MELTING points, *DIAMINES, *SALTS, *SINGLE crystals

Abstract

[Display omitted] • Seven bio-based nylon salts were synthesized. • These salts exhibited odd-even effects. • The mechanism of effects was explained. Nylon nF is a type of bio-based Nylon, whose raw materials NH 2 -(CH 2) n -NH 2 and 2,5-furandicarboxylic acid (FDCA) are both prepared by biological methods. The Nylon nF salts (PAnF salts) are the monomer salts before the polymerization of Nylon nF, whose product quality has a significant impact on the properties of Nylon nF. In this study, Nylon nF salts of FDCA and seven NH 2 -(CH 2) n -NH 2 diamines were synthesized. The crystal structures and thermodynamic behaviors of these Nylon salts were determined and analyzed by single crystal X-ray diffraction (SCXRD), powder X-ray diffraction (PXRD), and thermogravimetric analysis-differential scanning calorimetry (TG-DSC). Based on the analysis of melting point and solubility data, it was found that there is a significant even–odd effect between Nylon nF salts (n = 4–10). Moreover, the lattice energy and solvation energy in methanol of these Nylon salts were calculated by Materials Studio (MS) and Gaussian, respectively. The results indicated that there was also an even–odd effect in the lattice energy of Nylon nF salts. It is speculated that these even–odd phenomena were related to the symmetry of the ligand diamines and the stacking mode of Nylon salts. The study of the even–odd effect is significant in predicting and designing the physicochemical properties of cocrystals. [ABSTRACT FROM AUTHOR]

Published

2024

48. Effect of lattice-induced strain on microwave dielectric polarization and properties: A case study of Ga-based garnet.

Author

Xie, Haotian, Tang, Ying, Yang, Yang, Zhang, Ning, Gu, Xiaolong, and Xiang, Huaicheng

Subjects

*DIELECTRIC polarization, *DIELECTRIC properties, *GARNET, *DIELECTRIC materials, *MICROWAVE materials, *TANTALUM, *DIELECTRIC loss

Abstract

In microwave dielectric materials, the phenomenon that the measured permittivity (ε r) is inconsistent with the calculated permittivity (ε r (C-M)) often occurs. In the present work, the intrinsic factors affecting the microwave dielectric properties of Ga-based garnet Ca 3 B 1.5 Ga 3.5 O 12 (B = Nb, Ta) are studied by bond valence and the Phillips-Van Vechten-Levine (P-V-L) methods, and the relationship between lattice-induced strain effect and dielectric polarization is elucidated. Since the ionic polarizability of Nb5+ is lower than that of Ta5+, the ε r (C-M) values of Ca 3 Nb 1.5 Ga 3.5 O 12 (CNG) and Ca 3 Ta 1.5 Ga 3.5 O 12 (CTG) are 11.06 and 12.17, respectively. However, this is the opposite trend of the measured values (15.00 and 12.62). The global instability index (GII) is equal to 0.013 and 0.044 v.u. , respectively. Both the indexes, bond strain index (BSI) and GII , are related to the entire crystal structure. A stronger lattice-induced compressive strain and a higher degree of covalency lead to a lower measured ε r , a higher Q×f , a higher temperature coefficient of permittivity τ ε , and a larger negative τ f. • The lattice-induced compressive strain of Ca 3 B 1.5 Ga 3.5 O 12 (B = Nb, Ta) garnets has a large contribution to the dielectric polarization and loss. • A strong compression in the Ta5+ cation and a higher degree of covalency of the Ta-O bond leads to a lower ε r and a higher Q×f in Ta-containing samples. • The lattice-induced compressive strain would lead to a decrease in the restoring force to recover the deformation of the oxygen polyhedron, thereby increasing the τ ε values. [ABSTRACT FROM AUTHOR]

Published

2023

49. The Structure and Microwave Dielectric Properties of MgTi1−x(Mn1/3Nb2/3)xO3 Ceramics

Author

Jiang, Huan Huang, Baoyang Li, Fanshuo Wang, Yuanming Lai, and Gang

Subjects

MgTiO3 ceramic co-substitution, microwave dielectric properties, lattice energy, octahedral distortion

Abstract

MgTi1−x(Mn1/3Nb2/3)xO3 (x = 0–0.30) ceramics were prepared via the solid-state reaction method. The phase composition, microstructure, bond characteristics, and microwave dielectric properties of MgTi1−x(Mn1/3Nb2/3)xO3 (x = 0–0.30) were systematically investigated. The MgTi1−x(Mn1/3Nb2/3)xO3 ceramics presented an ilmenite type with an R-3 space group, and the secondary-phase MgTi2O5 only existed at x = 0 and 0.30. The introduction of (Mn1/3Nb2/3)4+ effectively suppressed the formation of the MgTi2O5 phase. The variation trend of the dielectric constant (εr) was the same as relative density. The quality factor (Qf) value was enhanced by the stable microstructure, which was caused via the lattice energy of Ti/(Mn1/3Nb2/3)-O bonds. And a high Qf value (353,000 GHz) was obtained for MgTi1−x(Mn1/3Nb2/3)xO3 (x = 0.04) ceramics sintered at 1250 °C. In addition, the introduction of Mn2+ ions with a larger ionic radius exacerbates the distortion of TiO6 octahedra, leading to significant fluctuations in the temperature coefficient of the resonance frequency (τf) value.

Published

2023

50. Effect of (Zn1/3Nb2/3)4+ co-substitution on the microwave dielectric properties of Ce2Zr3(MoO4)9 ceramics

Author

Du Jialun, Ma Xiaomeng, Kimura Hideo, Wu Haitao, Zhou Xu, Lu Yizhong, Tian Huanrong, Yue Zhenxing, and Liu Lintao

Subjects

Lattice energy, Materials science, Process Chemistry and Technology, Doping, Analytical chemistry, Dielectric, Microstructure, Grain size, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Polarizability, Phase (matter), visual_art, Materials Chemistry, Ceramics and Composites, visual_art.visual_art_medium, Ceramic

Abstract

Ce2[Zr1-x(Zn1/3Nb2/3)x]3(MoO4)9 (CZ1-x(ZN)xM) (x = 0.02–0.08) compounds were successfully prepared to scientifically examine the effect of (Zn1/3Nb2/3)4+ doping on phase composition, microstructures, and properties. The XRD results showed that all compounds formed a pure phase with the space group of R-3c. SEM results indicated that all compounds were compact at 675 °C, and the lattice parameters and average grain size decreased with doping. Performance analysis illustrated that er was closely related to the polarizability, and Q∙f was affected by the lattice energy of the Mo–O bond. The τf was maintained at an excellent level. Far-infrared analysis indicated that the major dielectric contribution to CZ1-x(ZN)xM ceramics was related to the absorption of phonon oscillation. The optimum properties (er = 10.72, Q∙f = 59,381 GHz, τf = −11.48 ppm/°C) were obtained when x = 0.04.

Published

2022