Themed collection Halogen Bonding in Crystal Engineering Editor’s collection

Novel fumaramides exhibit room-temperature phosphorescence in the solid state once molecular design and positioning of the carbonyl and bromine atoms allow for the formation of strong intermolecular halogen bonding interactions.

Donepezil, an active pharmaceutical ingredient with several different acceptor sites for halogen bonding has successfully been cocrystallized with two perfluorinated halogen bond donors.

Upper-rim halogenation of a calix[4]arene modulates the packing of self-assembled nanotubes through the formation of complementary halogen bonding interactions.

Halogenation is a promising tool to stabilize – through halogen bonds – the wet interface of amyloid structures.

This work revealed that the synergy of microporous channels and convergent arrangements of halogen bonding and charge-transfer interaction sites within coordination polymers facilitated the iodine adsorption process.

4-Iodo-N-(4-pyridyl)benzamide (INPBA) and four derived coordination complexes were synthesized in order to explore the combination of halogen and hydrogen bonding interactions in coordination chemistry.

Short and directional I⋯S halogen bonding interactions in iodinated bis(dithiolene) complexes lead to the crystallization of 2D or 3D anionic frameworks.

Crystal engineering of halogen bonding tripodal receptors is found to be highly dependent on solvent and choice of anion.

2D halogen-bonded organic frameworks were readily engineered by strong and directional effects of the primary Br⋯O and the secondary Br⋯π halogen bonding interactions from the tetrabromobenzene-1,4-dicarboxylic acid building molecule involving 100% supramolecular yields.

Halogen bonding as important directional forces in the supramolecular structure of iodinated 1-arylpyrazoles.

A pair of photoreactive polymorphic co-crystals that undergo a regioselective solid-state [2 + 2] cycloaddition reaction that yields exclusively the head-to-tail photoproduct is reported.

One co-crystal structure characterized to identify and quantify various non-covalent interactions with spectroscopy, X-ray crystallography and density functional theory computations.

Sulphur and iodine heteroatoms on the acceptor skeleton induce chalcogen⋯chalcogen and halogen-bonding interactions.

Crystalline polymorphs featuring halogen-bonded single-component supramolecular polygonal tessellations, a network of 4₁- and 4₃-double helices, and intertwined 3₁ and 3₂meso-helices.

The halogen bonding (XB) in metal carbonyls blueshifts the νCO band and XB directionality is dictated by XB-accepting atom hybridization.