Theoretical study of the activation of CH4 – nFn (n = 1–3) molecules by platinum in the gas-phase

Journal of Molecular Structure-theochem Pub Date : 2010-12-30 DOI:10.1016/j.theochem.2010.09.021

Yong-Cheng Wang, Xiao-Bin Wang, Zhi-Yuan Geng, Ling-Ling Lv, Qian Wang, Hui-Wen Liu, Qiang Wang, Dan-Dan Cui

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引用次数: 3

Abstract

The gas-phase reactions of fluorocarbon compounds CH_4 –_nF_n (n = 1–3) with Pt (³D, ¹S) have been systematically explored via density functional theory (DFT) in order to investigate the mechanisms of these reactions. The results indicate that a reaction of CH₃F with Pt (³D, ¹S) experiences a rearrangement process to generate counterintuitive production (CH₂F−PtH). CH₂F₂ and CHF₃ activation by Pt (³D, ¹S) yields high-oxidation-state complexes with carbon–metal double bonds. Moreover, the attack of platinum atoms on fluorine atoms in different fluorocarbon compounds involves intersystem crossing (ISC) between triplet and singlet state Potential Energy Surfaces (PESs). The crossing points (CPs) have been located by the intrinsic reaction coordinate (IRC) approach used by Yoshizawa et al. and corresponding minimum energy crossing points (MECPs) obtained by the mathematical algorithm proposed by Harvey et al. have also been used. Additionally, possible spin inversion processes are discussed using spin–orbit coupling (SOC) calculations.

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气相铂活化CH4 - nFn (n = 1-3)分子的理论研究

采用密度泛函理论(DFT)系统地探讨了氟碳化合物CH4 - nFn (n = 1-3)与Pt (3D, 1S)的气相反应机理。结果表明，CH3F与Pt (3D, 1S)的反应经历了重排过程，生成了反直觉的产物(CH2F−PtH)。Pt (3D, 1S)活化CH2F2和CHF3生成高氧化态的碳-金属双键配合物。此外，铂原子对不同氟碳化合物中氟原子的攻击涉及三重态和单线态势能面(PESs)之间的系统间交叉(ISC)。交叉点(CPs)由Yoshizawa等人使用的内在反应坐标(IRC)方法确定，相应的最小能量交叉点(mecp)也由Harvey等人提出的数学算法得到。此外，利用自旋轨道耦合(SOC)计算讨论了可能的自旋反转过程。

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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