scholarly journals Electrostatic Potential Topology for Probing Molecular Structure, Bonding and Reactivity

Molecules ◽  
2021 ◽  
Vol 26 (11) ◽  
pp. 3289
Author(s):  
Shridhar R. Gadre ◽  
Cherumuttathu H. Suresh ◽  
Neetha Mohan
Keyword(s):  
Electrostatic Potential ◽  
Critical Points ◽  
Reaction Mechanisms ◽  
Molecular Electrostatic Potential ◽  
Lone Pair ◽  
Topology Analysis ◽  
Molecular Electron ◽  
Molecular Bonding ◽  
Robust Prediction

Following the pioneering investigations of Bader on the topology of molecular electron density, the topology analysis of its sister field viz. molecular electrostatic potential (MESP) was taken up by the authors’ groups. Through these studies, MESP topology emerged as a powerful tool for exploring molecular bonding and reactivity patterns. The MESP topology features are mapped in terms of its critical points (CPs), such as bond critical points (BCPs), while the minima identify electron-rich locations, such as lone pairs and π-bonds. The gradient paths of MESP vividly bring out the atoms-in-molecule picture of neutral molecules and anions. The MESP-based characterization of a molecule in terms of electron-rich and -deficient regions provides a robust prediction about its interaction with other molecules. This leads to a clear picture of molecular aggregation, hydrogen bonding, lone pair–π interactions, π-conjugation, aromaticity and reaction mechanisms. This review summarizes the contributions of the authors’ groups over the last three decades and those of the other active groups towards understanding chemical bonding, molecular recognition, and reactivity through topology analysis of MESP.

scholarly journals On the Importance of Halogen Bonding Interactions in Two X-ray Structures Containing All Four (F, Cl, Br, I) Halogen Atoms

Crystals ◽  
2021 ◽  
Vol 11 (11) ◽  
pp. 1406
Author(s):  
Dmitriy F. Mertsalov ◽  
Rosa M. Gomila ◽  
Vladimir P. Zaytsev ◽  
Mikhail S. Grigoriev ◽  
Eugeniya V. Nikitina ◽  
...  
Keyword(s):  
Electrostatic Potential ◽  
Density Functional ◽  
Molecular Electrostatic Potential ◽  
Halogen Bonding ◽  
Noncovalent Interaction ◽  
Functional Theory ◽  
X Ray ◽  
Halogen Atoms ◽  
Interaction Plot

This manuscript reports the synthesis and X-ray characterization of two octahydro-1H-4,6-epoxycyclopenta[c]pyridin-1-one derivatives that contain the four most abundant halogen atoms (Ha) in the structure with the aim of studying the formation of Ha···Ha halogen bonding interactions. The anisotropy of electron density at the heavier halogen atoms provokes the formation of multiple Ha···Ha contacts in the solid state. That is, the heavier Ha-atoms exhibit a region of positive electrostatic potential (σ-hole) along the C–Ha bond and a belt of negative electrostatic potential (σ-lumps) around the atoms. The halogen bonding assemblies in both compounds were analyzed using density functional theory (DFT) calculations, molecular electrostatic potential (MEP) surfaces, the quantum theory of “atom-in-molecules” (QTAIM), the noncovalent interaction plot (NCIplot), and the electron localization function (ELF).

scholarly journals The electrostatic potential as a descriptor for the protonation propensity in automated exploration of reaction mechanisms

2019 ◽  
Vol 220 ◽  
pp. 443-463 ◽  
Author(s):  
Stephanie A. Grimmel ◽  
Markus Reiher
Keyword(s):  
Electrostatic Potential ◽  
Reaction Mechanisms ◽  
Molecular Electrostatic Potential ◽  
Local Minima

We discuss the possibility of exploiting local minima of the molecular electrostatic potential for locating protonation sites in molecules in a fully automated manner.

Electronic structure theory study of the reactivity and structural molecular properties of halo-substituted (F, Cl, Br) and heteroatom (N, O, S) doped cyclobutane

2021 ◽  
Vol 0 (0) ◽  
Author(s):  
Moses M. Edim ◽  
Hitler Louis ◽  
Emmanuel A. Bisong ◽  
Apebende G. Chioma ◽  
Obieze C. Enudi ◽  
...  
Keyword(s):  
Electrostatic Potential ◽  
Electrostatic Interactions ◽  
Density Functional ◽  
Molecular Electrostatic Potential ◽  
Population Analysis ◽  
Lone Pair ◽  
Nbo Analysis ◽  
Structure Theory ◽  
Potential Energy Distribution ◽  
Distribution Analysis

Abstract Cyclobutane and its halo-substituted derivatives and its heteroatom doped derivatives have been extensively investigated in this study because of the vast applications and interesting chemistry associated with them, the vibrational assignments, Natural Bond Orbital (NBO) analysis, Conceptual Density Functional Theory, Quantum Mechanical Descriptors and Molecular Electrostatic Potential (MEP) analysis have been explored in this study. The corresponding wavenumbers of the studied compounds have as well been assigned by Potential Energy Distribution analysis. Several inter and intramolecular hyperconjugative interactions within the studied compounds have been revealed by the NBO analysis with a confirmation of geometric hybridization and electronic occupancy. The compounds reactivity was observed to decrease down the halo group in manners such as the stability, both were observed to decrease from azetidine to thietane. The distribution of charge was observed to be affected by the ring substituent as observed from the charge population analysis; in addition, adjacent atoms are very much affected by the inherent properties of the substituted atoms. The NBO result suggests that the molecules are stabilized by lone pair delocalization of electrons from the substituted atoms and molecular electrostatic potential (MEP) studies revealed that substituted halogens and doped heteroatoms are important and most probable sites of electrostatic interactions.

Theoretical study of hydrogen bonding interactions in substituted nitroxide radicals

2021 ◽  
Author(s):  
Thufail M. Ismail ◽  
Neetha Mohan ◽  
P. K. Sajith
Keyword(s):  
Hydrogen Bonding ◽  
Interaction Energy ◽  
Electrostatic Potential ◽  
Molecular Electrostatic Potential ◽  
Theoretical Study ◽  
Nitroxide Radicals ◽  
Hydrogen Bonding Interactions ◽  
Bonded Complexes ◽  
Hydrogen Bonded

Interaction energy (Eint) of hydrogen bonded complexes of nitroxide radicals can be assessed in terms of the deepest minimum of molecular electrostatic potential (Vmin).

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