forthcoming articles

The spatial distribution of electrostatic and quantum electronic forces in stable crystals is studied using the experimental electron density and their structure-forming properties are revealed.

The high-pressure/high-tem­per­ature phase Sr₅CuGe₉O₂₄ was solved by low-dose electron diffraction tomography and refined against powder X-ray diffraction data. The Ge ions in this compound have three different coordination numbers.

Monoclinic SmAl₃(BO₃)₄ borate was successfully synthesized by the group growth on seed method and the structural and spectroscopic properties were investigated in detail.

The effective volumes of waters of crystallization have been determined for 163 hydrate/parent systems, yielding a mean value of 24 ų. A generic value of 147 ± 56 × 10⁻⁶ K⁻¹ has been established for the volumetric coefficient of thermal expansion of organic solids. These results may be helpful in assessing and predicting hydrate crystal structures and volume-related thermodynamic properties.

The anisotropic deformation and pressure-induced phase change of alkali-silica reaction (ASR) products are studied by high-pressure X-ray diffraction, providing the first molecular-scale input to model the micro-degradation of concrete that suffers from ASR damage.

A new tool called ChemEnv, which can identify coordination environments in a fast and robust manner, is presented.

A program to identify and characterize approximate translations has been written. Running it for the structures archived in the Cambridge Structural Database showed that the frequency of pseudotranslations increases with Z′ and is approximately 50% for Z′ > 4.

A database containing the fusion temperatures of two-component molecular crystals (1947 co-crystals) and individual components thereof has been created and analysed. The approach based on an efficacy parameter allowing the prediction of co-crystals with melting points lower than those of individual compounds was developed.

The article reviews current progress in the investigations of polyoxometalate clusters in minerals.

The importance of fluorine-mediated interactions in the crystal structures of a series of tetra-fluorinated tetra­hydro­iso­quinoline derivatives through structural and computational analysis is presented.