forthcoming articles

An analysis of chalcogen–halogen interactions based on the Cambridge Structural Database is presented.

A series of substituted 2-(N-aryl­imino)­coumarin-3-carboxamides has been divides into three groups of isotypic crystal structures with different molecular structure and crystal organization.

An accurate X-ray diffraction study of (Ho_0.96Bi_0.04)Fe₃(BO₃)₄ single crystals in the temperature range 11–500 K has been performed on a laboratory diffractometer and using synchrotron radiation. A structural phase transition at about 365 K has been studied.

The effective volumes of waters of crystallization have been determined for 27 hydrate/parent systems, with a median value of 22.8 ų. These results may be helpful in assessing and predicting hydrate crystal structures.

The surface structure of fluoro­apatite (0001) under dry and humid conditions has been probed with X-ray diffraction. The dry surface shows incomplete tetrahedra on the surface that are partially filled when the surface is hydrated.

Seven novel lanthanide coordination polymers were prepared. These coordination polymers exhibit several 2D and 3D framework topologies that are dictated by the choice of metal salts and carboxyl­ate ligands. The hetero-nuclear compounds [Eu_xTb_1−x(STP)(1,2-bdc)]_n (0 ≤ x ≤ 1) have potential use as efficient luminescent taggants.

Regular cross sections of zincblende- and diamond-structured nanowires (NWires) are described, and number series are presented for NWire atoms, for the bonds between these and for the NWire interface bonds for a slab of unit-cell length along the NWire axis, as well as the characteristic lengths and areas of the NWire cross sections. The ratios of internal bonds per NWire atom, of internal to interface bonds and of interface bonds per NWire atom present fundamental tools to interpret any spectroscopic data which depend on the diameter and cross-sectional shape of NWires.

A new modification of CsMnPO4 (β-phase) is discussed in a superspace approach. Structural relations with topologically and chemically similar compounds are shown.

The first powder neutron diffraction study of the hexagonal tungsten bronzes RbNbW₂O₉ and KNbW₂O₉ is presented. The existence of octahedral tilting that has not been previously observed using X-ray diffraction is also reported.

In investigating the formation of apremilast cocrystals, this work demonstrates the preference for aromatic–aromatic interactions over hydrogen bonds in the studied crystals and the stabilizing role of disorder, leading to entropy-driven formation of the cocrystals.

A photophysical study involving three bi­phenyl-based Knoevenagel products has been carried out. Two of the compounds show stimuli-responsive aggregation-enhanced emission. Photophysical behavior of the active fluoro­phore is explained based on molecular packing and π–π interactions.

The polymeric structure of sodium di­aqua­fenamate–water (1/1) was investigated and the theoretical analysis revealed that the Na—O bonds are very weak, comparable with the weak N—H⋯O intramolecular hydrogen bond. The polymeric structure is stabilized by the interaction of the sodium cation with the surrounding water molecules.

A novel compound, Rb₂CaCu₆(PO₄)₄O₂, was synthesized by a hydrothermal method and characterized as the shchurovskyite-type structure, based upon a heteropolyhedral copper phosphate framework. Microscopic calculations are indicative of possible low-dimensional magnetic behavior, as they confirm weak magnetic coupling between the copper-based layers mediated by the Cu–Cu pairs.

Multi-fluorescent properties of a tri­phenyl­amine derivative are investigated under different conditions.