Litcius/Paper detail

The nature of π-hole interactions between iodide anions and quinoid rings in the crystalline state

Valentina Milašinović, Vedran Vuković, Anna Krawczuk, Krešimir Molčanov, Christoph Hennig, Michael Bodensteiner

2023IUCrJ16 citationsDOIOpen Access PDF

Abstract

The investigated co-crystal of 3-chloro- N -methylpyridinium iodide with tetrabromoquinone (3-Cl- N -MePy·I·Br 4 Q) reveals a π-hole interaction between an iodide anion and a quinoid ring involving an n → π* charge transfer. The quinoid ring has a partial negative charge (estimated to be in the range 0.08–0.11 e ) and a partial radical character, which is related to the black colour of the crystals (crystals of neutral tetrabromoquinone are yellow). A detailed X-ray charge density study revealed two symmetry-independent bond critical points between the iodide anions and carbon atoms of the ring. Their maximum electron density of 0.065 e Å −3 was reproduced by quantum chemical modelling. The energy of the interaction is estimated to be −11.16 kcal mol −1 , which is comparable to the strength of moderate hydrogen bonding (about −10 kcal mol −1 ); it is dominantly electrostatic in nature, with a considerable dispersion component.

Topics & Concepts

IodideChemistryState (computer science)Combinatorial chemistryComputer scienceChemical physicsNanotechnologyMaterials scienceInorganic chemistryAlgorithmCrystallography and molecular interactionsSolid-state spectroscopy and crystallographyNonlinear Optical Materials Research