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Halogen Bonding Propensity in Solution: Direct Observation and Computational Prediction

Taylor A. BramlettDepartment of Chemistry University of Michigan 930 North University Ave Ann Arbor MI 48109 USAAdam J. MatzgerDepartment of Chemistry University of Michigan 930 North University Ave Ann Arbor MI 48109 USA
2021en
ABI

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Abstract Halogen‐bonded complexes are often designed by consideration of electrostatic potential (ESP) predictions. ESP predictions do not capture the myriad variables associated with halogen bond (XB) donors and acceptors; thus, binding interaction cannot be quantitatively predicted. Here, a discrepancy between predictions based on ESP energy difference (ΔV s ) and computed gas phase binding energy (ΔE bind ) motivated the experimental determination of the relative strength of halogen bonding interactions in solution by Raman spectroscopic observation of complexes formed from interacting five iodobenzene‐derived XB donors and four pyridine XB acceptors. Evaluation of ΔE bind coupled with absolutely‐localized molecular orbital energy decomposition analysis (ALMO‐EDA) deconvolutes halogen bonding energy contributions and reveals a prominent role for charge transfer (CT) interactions. Raman spectra reveal ΔE bind accurately predicts stronger interactions within iodopentafluorobenzene (IPFB) complexes than with 1‐iodo‐3,5‐dinitrobenzene (IDNB) complexes even though IPFB has similar electrostatics to IDNB and contains a smaller σ‐hole.

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