forthcoming articles

The crystallographic analysis of two novel pyrroles is reported. A nitrosyl derivative revealed strong hydrogen-bond inter­actions and bifurcated halogen bonds that lead to inter­stitial voids.

A di­iron end-on μ₂-η¹:η¹-CN-bridged com­plex is obtained from a crystallization experiment of an open-chain iron–NHC com­plex. The cyanide appears to originate from the aceto­nitrile (MeCN) solvent by C—C bond cleavage or through C—H oxidation.

The structure of a CO₂ reduction photo­catalyst prototype, the first cis-dicarbonyl ruthenium(II) tetra­pyrrole complex, has been determined by X-ray and electron diffraction to have an unprecedented seesaw-coordinated biladiene ligand.

The sensitivity of atomic Hirshfeld surfaces is further validated through the evaluation of contacts of type M⋯H and through the variations in curvature for C—C bonds depending on the hybridization of the C atoms.

In the title Cu₂I₂P₂S₂-type binuclear com­plex, Cu₂I₂TPP₂TU₂, TPP (triphenylphosphine) and TU (thiourea) adopt terminal coordinations, and the two Cu^I centres are bridged by two μ₂-I ligands. After com­posite processing, the paper-based film based on the title com­plex exhibits obvious luminescence light-up sensing for pyridine and 4-methyl­pyridine.

The (3+1)-dimensional incommensurate structure of (2S,3S)-2-amino-3-hy­droxy-3-methyl-4-phen­oxy­butanoic acid dihydrate (I·2H₂O), in which one of the water mol­ecules is disordered over two positions and each position exhibits occupational modulation, can be well refined in superspace, and in the average and supercell approximations. The occupational modulation of the disordered solvent water mol­ecule results from the com­petition between the different hy­dro­gen-bonding motifs associated with the two disorder positions of the water mol­ecule.

The crystal structures of an array of 16 boron sub­phthalo­cy­an­ines with structurally diverse axial groups were analyzed and com­pared based on their inter­molecular inter­actions, axial bond lengths and bowl depths.

The reaction of titanium(IV) chloride with sodium hexa­fluoro­iso­pro­pox­ide, carried out in hexa­fluoro­iso­propanol, produces titanium(IV) hexa­fluoro­iso­pro­pox­ide, which is a liquid at room temperature. Recrystallization from coordinating solvents, such as aceto­nitrile or tetra­hydro­furan, results in the formation of bis-solvate com­plexes. These com­pounds are of inter­est as possible Ziegler–Natta polymerization catalysts.

Review of com­putational simulations of the chal­co­py­rite structure, oxidations and inter­actions with collectors.