Article ID Journal Published Year Pages File Type
1305685 Inorganica Chimica Acta 2014 7 Pages PDF
Abstract

•The three-body reactions are predicted to be the mainly decomposition channels of HOXeX/HXeOX.•The H–Xe (HXeOX) and O–H (HOXeX) stretching modes are highly anharmonic.•The electrostatic interaction is the main driving force for the formation of ionic (HXe)+(OX)− or (HO)+(XeX)−.

The structures, harmonic/anharmonic vibrational frequencies, stabilities and bondings of HOXeX/HXeOX (X = F, Cl, Br and I) were investigated. Both HXeOX/HOXeX were confirmed to be stable, and HOXeX is more stable thermodynamically than corresponding HXeOX. The two-body decomposition reactions of them are exothermic, while the three-body ones are endothermic. However, both of them are stabilized kinetically with respect to the two-/three-body decomposition reactions by enough highly energy barriers. The three-body reactions are predicted to be the mainly decomposition channels because of the lower energy barriers of TS2. The VSCF analysis shows that the H–Xe (HXeOX) and O–H (HOXeX) stretching modes are highly anharmonic and are very likely to be observed experimentally. The nature of the bondings in HXeOX/HOXeX were analyzed by QTAIM, LMO-EDA and Löwdin/NPA population methods, and found that the electrostatic interaction is the main driving force for the formation of ionic (HXe)+(OX)− or (HO)+(XeX)−.

Graphical abstractHOXeX (X = F, Cl, Br and I) is more stable thermodynamically than corresponding HXeOX. Both of them are stabilized kinetically with respect to the two-/three-body decomposition reactions, while the three-body ones are predicted to be the mainly decomposition channels.Figure optionsDownload full-size imageDownload as PowerPoint slide

Related Topics
Physical Sciences and Engineering Chemistry Inorganic Chemistry
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