13875-06-4Relevant articles and documents
XeOF3-, an example of an AX3YE2 valence shell electron pair repulsion arrangement; Syntheses and structural characterizations of [M][XeOF3] (M = Cs, N(CH3) 4)
Brock, David S.,Mercier, Helene P. A.,Schrobilgen, Gary J.
, p. 10935 - 10943 (2010/09/16)
The XeOF3- anion has been synthesized as its Cs + and N(CH3)4+ salts and structurally characterized in the solid state by low-temperature Raman spectroscopy and quantum-chemical calculations. Vibrational frequency assignments for [Cs][XeOF3] and [N(CH3) 4][XeOF3] were aided by 18O enrichment. The calculated anion geometry is based on a square planar AX3YE 2 valence-shell electron-pair repulsion arrangement with the longest Xe-F bond trans to the oxygen atom. The F-Xe-F angle is bent away from the oxygen atom to accommodate the greater spatial requirement of the oxygen double bond domain. The experimental vibrational frequencies and trends in their isotopic shifts are reproduced by the calculated gas-phase frequencies at several levels of theory. The XeOF3- anion of the Cs + salt is fluorine-bridged in the solid state, whereas the anion of the N(CH3)4+ salt has been shown to best approximate the gas-phase anion. Although [Cs][XeOF3] and [N(CH 3)4][XeOF3] are shock-sensitive explosives, the decomposition pathways for the anions have been inferred from their decomposition products at 20°C. The latter consist of XeF2, [Cs][XeO2F3], and [N(CH3)4][F]. Enthalpies and Gibbs free energies of reaction obtained from Born-Fajans-Haber thermochemical cycles support the proposed decomposition pathways and show that both disproportionation to XeF2, [Cs][XeO2F3], and CsF and reduction to XeF2, CsF, and O2 are favorable for [Cs][XeOF3], while only reduction to XeF2 accompanied by [N(CH3)4][F] and O2 formation are favorable for [N(CH3)4][XeOF3]. In all cases, the decomposition pathways are dominated by the lattice enthalpies of the products.
Preparation of O2XeF2-x(OTeF5)x, OXeF4-y(OTeF5)y, and XeF4-y(OTeF5)y (x = 0-2, y = 0-4) and study by 129Xe and 19F NMR and Raman spectroscopy: The oxygen primary isotopic effect in the 129Xe NMR spectra of XeO2F2 and XeOF4
Schumacher, Gerhard A.,Schrobilgen, Gary J.
, p. 2923 - 2929 (2008/10/08)
A series of mixed fluoro/pentafluroorthotellurate (OTeF5) derivatives of the xenon(VI) oxyfluorides XeOF4 and XeO2F2, as well as those of XeF4, have been prepared and studied by 19F and 129Xe NMR spectroscopy. The compound O2Xe(OTeF5)2 has been prepared and isolated for the first time and, along with the previously reported Xe(OTeF5)4 and XeO(OTeF5)4 derivatives, has been characterized by low-temperature Raman spectroscopy. An oxygen-17 NMR study of the 17O/ 18O-enriched oxyfluorides XeO2F2 and XeOF4 and their 18O/16O primary isotopic shifts in the 129Xe NMR spectra are also reported.