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In Situ Assessment of Intrinsic Strength of X-I⋯OA-Type Halogen Bonds in Molecular Crystals with Periodic Local Vibrational Mode Theory

Yunwen Tao, Yue Qiu, Wenli Zou, Sadisha Nanayakkara, Seth Yannacone, Elfi Kraka

2020Molecules32 citationsDOIOpen Access PDF

Abstract

-oxide groups) in 32 model systems originating from 20 molecular crystals. We found that the halogen bonding between the donor dihalogen X-I and the wide collection of acceptor molecules OA features considerable variations of the local stretching force constants (0.1-0.8 mdyn/Å) for I⋯O halogen bonds, demonstrating its powerful tunability in bond strength. Strong correlations between bond length and local stretching force constant were observed in crystals for both the donor X-I bonds and I⋯O halogen bonds, extending for the first time the generalized Badger's rule to crystals. It is demonstrated that the halogen atom X controlling the electrostatic attraction between the σ -hole on atom I and the acceptor atom O dominates the intrinsic strength of I⋯O halogen bonds. Different oxygen-containing acceptor molecules OA and even subtle changes induced by substituents can tweak the n → σ ∗ (X-I) charge transfer character, which is the second important factor determining the I⋯O bond strength. In addition, the presence of the second halogen bond with atom X of the donor X-I bond in crystals can substantially weaken the target I⋯O halogen bond. In summary, this study performing the in situ measurement of halogen bonding strength in crystalline structures demonstrates the vast potential of the periodic local vibrational mode theory for characterizing and understanding non-covalent interactions in materials.

Topics & Concepts

Halogen bondAcceptorHalogenChemistryAtom (system on chip)MoleculeCrystallographyHydrogen bondBond strengthComputational chemistryChemical physicsOrganic chemistryAdhesiveCondensed matter physicsAlkylLayer (electronics)Embedded systemPhysicsComputer scienceCrystallography and molecular interactionsInorganic Fluorides and Related CompoundsCorrosion Behavior and Inhibition