Intermolecular interaction potential maps from energy decomposition for interpreting reactivity and intermolecular interactions

16 August 2024, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Traditionally, potential maps, including electrostatic potential (ESP), have been used to visualize the distribution of various molecular properties about a molecule, revealing key interactions. However, electrostatic effects are often insufficient for capturing the entirety of an interaction or reaction of interest. In this investigation, intermolecular interaction maps (IMIPs), constructed from the potentials derived from energy decomposition analysis (EDA) using density functional theory, were developed and applied to provide unique insight into molecular interactions and reactivity. To this end, rather than constructing a potential map from probe point charge interactions, IMIPs were constructed from probe interactions with small molecular fragments, including CH3+, CH3, benzene, and atomic probes including alkali and transition metals, and halides. The interaction potentials are further decomposed producing IMIPs for each interaction component using EDA (electrostatic, orbital, steric, etc.). The IMIPs are applied to the study of various interactions including cation- and anion-π interactions, electrophilic and nucleophilic aromatic substitution, Lewis acid activation, π-stacking, endohedral fullerenes, and select organometallics which reveal fundamental insight into the positional preferences and physical origins of the interactions that otherwise would be difficult to uncover through other surfaces analyses.

Keywords

Molecular Electrostatic Potential
Molecular Surface Property Approach
Molecular Interaction Field
Energy Decomposition Analysis
Reactivity

Supplementary materials

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Supporting Information
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Detailed methods, validations, additional IMIP surfaces images, Hammett plots, and data tables.
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Molecular Coordinates
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Molecular Coordinates
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Field Files
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Files containing field data.
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