Issue 3, 2024

Boiling, critical, and freezing temperatures in light of molecular descriptors: correlation and causation

Abstract

In the pursuit of tracking some physicochemical properties of fluids down to the molecular level, ab initio molecular surface analyses were performed on 169 molecules. This included electrostatic potential (EP), average local ionization energy (ALIE), and electron localization function (ELF) mapped onto an electron density isosurface value of 0.001 au. Using stepwise linear regression (SLR) analysis, it was found that besides the well-studied EP, ALIE and ELF played important roles in determining the normal boiling and freezing points and critical temperatures of fluids. Apparently, the ALIE and ELF were relevant to the attractive polarization forces and repulsive Pauli forces, respectively, between molecules. To further demonstrate and rationalize this assumption, a localized molecular orbital energy decomposition analysis (LMO-EDA) was carried out. In the LMO-EDA analysis, the complexes of the helium atom, He, and ClCl, ClBr, ClI, OCO, OCS, OCSe, and CO/OC molecules were investigated, where the helium atom faced different molecular sites in each molecule. Fortunately, the results showed that lower the ALIE value on a molecular site, the stronger (i.e., more attractive) the polarization interaction energy. The results also indicated that higher the ELF value on a molecular site, the stronger (i.e., more repulsive) the Pauli interaction. The work is aimed to present novel molecular-based rationales to physical chemists, chemical engineers, and materials scientists.

Graphical abstract: Boiling, critical, and freezing temperatures in light of molecular descriptors: correlation and causation

Supplementary files

Article information

Article type
Paper
Submitted
03 Oct 2023
Accepted
08 Dec 2023
First published
11 Dec 2023

Phys. Chem. Chem. Phys., 2024,26, 2426-2439

Boiling, critical, and freezing temperatures in light of molecular descriptors: correlation and causation

O. Abdeen, M. Ismael and A. Abdou, Phys. Chem. Chem. Phys., 2024, 26, 2426 DOI: 10.1039/D3CP04788A

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