Issue 13, 2024

Structure, stability, reactivity and bonding in noble gas compounds

Abstract

Noble gases (Ngs) are recognized as the least reactive elements due to their fully filled valence electronic configuration. Their reluctance to engage in chemical bond formation necessitates extreme conditions such as low temperatures, high pressures, and reagents with high reactivity. In this Perspective, we discuss our endeavours in the theoretical prediction of viable Ng complexes, emphasizing the pursuit of synthesizing them under nearly ambient conditions. Our research encompasses various bonding categories of Ng complexes and our primary aim is to comprehend the bonding mechanisms within these complexes, utilizing state-of-the-art theoretical tools such as natural bond orbital, energy decomposition, and electron density analyses. These complex types manifest distinct bonding scenarios. In the non-insertion type, the donor–acceptor interaction strength hinges on the polarizing ability of the binding atom, drawing the electron density of the Ng towards itself. In certain instances, especially with heavier Ng elements, this interaction reaches a magnitude where it can be considered a covalent bond. Conversely, in most insertion cases, the Ng prefers to share electrons to form a covalent bond on one side while interacting electrostatically on the other side. In rare cases, both bonds may be portrayed as electron-shared covalent bonds. Furthermore, a host cage serves as an excellent platform to explore the limits of achieving Ng–Ng bonds (even for helium), under high pressure.

Graphical abstract: Structure, stability, reactivity and bonding in noble gas compounds

Article information

Article type
Perspective
Submitted
29 dek 2023
Accepted
05 mar 2024
First published
07 mar 2024

Phys. Chem. Chem. Phys., 2024,26, 9856-9866

Structure, stability, reactivity and bonding in noble gas compounds

R. Pal and P. K. Chattaraj, Phys. Chem. Chem. Phys., 2024, 26, 9856 DOI: 10.1039/D3CP06321F

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