Coupled Cluster Study of the Heats of Formation of UF6 and the Uranium Oxyhalides, UO2X2 (X = F, Cl, Br, I, and At)

IF 2.7 2区 化学 Q3 CHEMISTRY, PHYSICAL
Devon M. Andriola,  and , Kirk A. Peterson*, 
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引用次数: 1

Abstract

The atomization enthalpies of the U(VI) species UF6 and the uranium oxyhalides UO2X2 (X = F, Cl, Br, I, and At) were calculated using a composite relativistic Feller–Peterson–Dixon (FPD) approach based on scalar relativistic DKH3-CCSD(T) with extrapolations to the CBS limit. The inherent multideterminant nature of the U atom was mitigated by utilizing the singly charged atomic cation in all calculations with correction back to the neutral asymptote via the accurate ionization energy of the U atom. The effects of SO coupling were recovered using full 4-component CCSD(T) with contributions due to the Gaunt Hamiltonian calculated using Dirac–Hartree–Fock. The final atomization enthalpy for UF6 (752.2 kcal/mol) was within 2.5 kcal/mol of the experimental value, but unfortunately the latter carries a ±2.4 kcal/mol uncertainty that is predominantly due to the experimental uncertainty in the formation enthalpy of the U atom. The analogous value for UO2F2 (607.6 kcal/mol) was in nearly exact agreement with the experiment, but the latter has a stated experimental uncertainty of ±4.3 kcal/mol. The FPD atomization enthalpy for UO2Cl2 (540.4 kcal/mol) was within the experimental error limit of ±5.5 kcal/mol. FPD atomization energies for the non-U-containing molecules (used for reaction enthalpies) H2O and HX (X = F, Cl, Br, I, and At) were within at most 0.3 kcal/mol of their experimental values where available. The FPD atomization enthalpies, together with FPD reaction enthalpies for two different reactions, were used to determine heats of formation for all species of this work, with estimated uncertainties of ±4 kcal/mol. The calculated heat of formation for UF6 (−511.0 kcal/mol) is within 2.5 kcal/mol of the accurately known (±0.45 kcal/mol) experimental value.

Abstract Image

UF6与铀氧化卤化物UO2X2 (X = F, Cl, Br, I, At)生成热的耦合团簇研究
采用基于标量相对论DKH3-CCSD(T)的复合相对论Feller-Peterson-Dixon (FPD)方法计算了铀(VI)类UF6和氧化卤化铀UO2X2 (X = F, Cl, Br, I和At)的原子化焓,并外推了CBS极限。通过在所有计算中使用单电荷原子阳离子,并通过U原子的精确电离能修正回中性渐近线,减轻了U原子固有的多决定性质。使用全4分量CCSD(T)恢复了SO耦合的影响,其中的贡献来自使用dirac - har树- fock计算的冈特哈密顿量。UF6的最终原子化焓(752.2 kcal/mol)与实验值相差不到2.5 kcal/mol,但不幸的是,后者的不确定性为±2.4 kcal/mol,这主要是由于U原子形成焓的实验不确定性。UO2F2的模拟值(607.6 kcal/mol)与实验值几乎完全一致,但后者的实验不确定度为±4.3 kcal/mol。UO2Cl2的FPD雾化焓(540.4 kcal/mol)在±5.5 kcal/mol的实验误差范围内。不含铀分子(用于反应焓)H2O和HX (X = F, Cl, Br, I和At)的FPD雾化能与实验值的差不超过0.3 kcal/mol。FPD雾化焓,以及两种不同反应的FPD反应焓,被用来确定所有物质的生成热,估计不确定度为±4 kcal/mol。计算的UF6的生成热(−511.0 kcal/mol)与精确已知的实验值(±0.45 kcal/mol)相差不到2.5 kcal/mol。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
The Journal of Physical Chemistry A
The Journal of Physical Chemistry A 化学-物理:原子、分子和化学物理
CiteScore
5.20
自引率
10.30%
发文量
922
审稿时长
1.3 months
期刊介绍: The Journal of Physical Chemistry A is devoted to reporting new and original experimental and theoretical basic research of interest to physical chemists, biophysical chemists, and chemical physicists.
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