Unveiling Hidden Intramolecular Non‐Covalent Interactions in a Neutral Serine, Its Zwitterion, Cluster, and Crystal by Features of Electron Density
Vasilii Korotenko, Anna Egorova, Vladimir Tsirelson

TL;DR
This paper identifies a new type of non-covalent interaction in serine and its forms, which contribute to molecular stability and change with molecular environment.
Contribution
The study introduces 'latent' non-covalent interactions, classified as dynamic or static, and uses electronic pressure to analyze their behavior.
Findings
Latent interactions are classified into dynamic and static types based on their electronic pressure signatures.
Dynamic interactions show off-axis minima in exchange pressure, while static ones do not.
Crystallization can eliminate latent interactions due to electron density redistribution and intermolecular hydrogen bonding.
Abstract
We investigate intramolecular non‐covalent interactions (NCIs) in neutral serine, its zwitterion, molecular clusters, and crystal using electron density‐based approaches, including QTAIM, RDG, IQA, and electronic pressure analysis. In addition to completed NCIs (hydrogen bonds with bond paths), we identify latent interactions—attractive, bond‐path‐free atomic pair interactions with negative interaction energies. These are classified into dynamic (vibration‐induced and transient) and static (secondary, persistent but structurally passive) types. Analysis of the internal pressure in electronic continuum reveals that latent NCIs exhibit distinct signatures in the kinetic and exchange components, which evolve across the molecular, cluster, and crystalline states. Dynamic interactions are characterized by off‐axis minima in the exchange part of the pressure, whereas static interactions lack…
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Taxonomy
TopicsCrystallography and molecular interactions · Advanced Chemical Physics Studies · Spectroscopy and Quantum Chemical Studies
