forthcoming articles

Several isotypic and morphotropic series were distinguished. Coordination numbers of metal atoms, variation of bond lengths, coordination modes of ligands and combinatorial topological types of Voronoi–Dirichlet polyhedra were discussed.

Pressure-induced structural strain in (R)-3-quinuclidinol crystals was analysed over different pressure ranges and com­pared with structural strain on cooling.

New crystals of salts of fenamic acid–amantadine and tolfenamic acid–amantadine are presented. Structural studies and theoretical analysis using QTAIM and NCI methods were performed to investigate weak interactions that are found to be crucial in the studied crystals.

The methodology proposed combines DFT calculations and optical properties, investigating the relationship between the crystal lattice deformation, caused by uniaxial compression, and the photoelasticity, with particular emphasis on its anisotropy. The presented theoretical modelling, can be considered as part of optical engineering aimed at preliminary assessment of the photoelastic properties of crystal materials, thus assisting in their selection for synthesis and further experimental characterization.

Several Li/Fe³⁺-doped Pbca orthoenstatite and Pbcn protoenstatite crystals were characterized, and varying levels of doping preferentially affect the py­rox­ene topologies.

The structural behaviour of EuFe₃(BO₃)₄ and lanthanum-doped EuFe₃(BO₃)₄ crystals has been studied with respect to tem­per­a­ture using X-ray fluorescence analysis, single-crystal X-ray diffraction, Mössbauer spectroscopy and specific heat capacity measurements. Structural and magnetic phase transitions have been discussed.

Electron density distribution in bis(guanidinium) disodium hypodiphosphate heptahydrate, (CH₆N₃)₂Na₂(P₂O₆)·7H₂O, is reported.

A rare complex incommensurate magnetic structure, an amplitude-modulated structure which itself is modulated, was determined in the Ho-based i-MAX phase (Mo_2/3Ho_1/3)₂GaC. It represents a particularly distinctive case of a 2-k magnetic structure with no symmetry relation between the propagation vectors.

The patterns of microbial crystallization are controlled by the chemical composition of biofilms associated with environmental exposure and the activity of microorganisms. Variations in the nutritional components of the medium change the content of oxalic acid and extracellular polymer substance in the products of microbial metabolism, which significantly affect the pH and can lead to the replacement of oxalate crystallization by carbonate crystallization and vice versa.

The online software server SARAh—webRepresentational Analysis is introduced. The new suite of web apps carries out a range of calculations based on representation theory for the modelling of possible magnetic structures, their refinement from neutron scattering data and the analysis of other problems in condensed matter.