Abstract
Covalent bonding and noncovalent interactions are important chemical concepts and how to identify them has been of current interest in the literature. Within the framework of density functional theory (DFT), we recently proposed a few qualitative descriptors to categorize different types of interactions with Pauli energy and its derivatives. In this work, we expand the scope by including the quantities derived from energetic information, which were recently proposed and thoroughly investigated by us from the framework of information-theoretic approach (ITA) in DFT. To that end, six energetic information quantities stemmed from the steric energy (Es), including Shannon entropy [[EQUATION]], Fisher information [[EQUATION]], information gain [[EQUATION]], alternative Fisher information [[EQUATION]], relative Fisher information [[EQUATION]], and relative alternative Fisher information [[EQUATION]] are examined for the purpose. A strong linear correlation of Es or its topological analysis results with different covalent bond orders is established. We also unveil that signature isosurfaces of different categories of interactions from [[EQUATION]] and [[EQUATION]] can be employed to simultaneously identify single, double, triple, and quadruple covalent bonds, ionic and metallic bonds, and van der Waals interactions. This work provides another pathway for us to use density-based quantities to simultaneously identify covalent and noncovalent interactions.
Published Version
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