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采用阈值光电子光离子符合光谱和计算方法相结合的方式研究单甲胺、二甲胺和三甲胺的离解光离子化。

Dissociative photoionization of mono-, di- and trimethylamine studied by a combined threshold photoelectron photoion coincidence spectroscopy and computational approach.

作者信息

Bodi Andras, Sztáray Bálint, Baer Tomas

机构信息

Department of General and Inorganic Chemistry, Eotvos Lorand University, Budapest, Hungary.

出版信息

Phys Chem Chem Phys. 2006 Feb 7;8(5):613-23. doi: 10.1039/b511203f. Epub 2005 Nov 11.

Abstract

Energy selected mono-, di- and trimethylamine ions were prepared by threshold photoelectron photoion coincidence spectroscopy (TPEPICO). Below 13 eV, the main dissociative photoionization path of these molecules is hydrogen atom loss. The ion time-of-flight (TOF) distributions and breakdown diagrams for H loss are analyzed in terms of the statistical RRKM theory, which includes tunneling. Experimental evidence, supported by quantum chemical calculations, indicates that the reverse barrier along the H loss potential energy curve for monomethylamine is 1.8 +/- 0.6 kJ mol(-1). Accurate dissociation onset energies are derived from the TOF simulation, and from this analysis we conclude that Delta(f)H degrees (298K)[CH(2)NH(2)(+)] = 750.4 +/- 1.3 kJ mol(-1) and Delta(f)H degrees (298K)[CH(2)NH(CH(3))(+)] = 710.9 +/- 2.8 kJ mol(-1). Quantum chemical calculations at the G3, G3B3, CBS-APNO and W1U levels are extensively used to support the experimental data. The comparison between experimental and ab initio isodesmic reaction heats also suggests that Delta(f)H degrees (298K)[N(CH(3))(3)] = -27.2 +/- 2 kJ mol(-1), and that the dimethylamine ionization energy is 8.32 +/- 0.03 eV, both of which are in slight disagreement with previous experimental values. Above 13 eV photon energy, additional dissociation channels appear besides the H atom loss, such as a sequential C(2)H(4) loss from trimethylamine for which a dissociation mechanism is proposed.

摘要

通过阈值光电子光离子符合光谱法(TPEPICO)制备了能量选择的单甲胺、二甲胺和三甲胺离子。在13电子伏特以下,这些分子的主要解离光致电离途径是氢原子损失。根据包括隧穿效应的统计RRKM理论分析了氢损失的离子飞行时间(TOF)分布和分解图。量子化学计算支持的实验证据表明,单甲胺沿氢损失势能曲线的反向势垒为1.8±0.6千焦每摩尔(-1)。从TOF模拟中得出了精确的解离起始能量,通过该分析我们得出结论,ΔfH°(298K)[CH2NH2(+)] = 750.4±1.3千焦每摩尔(-1),ΔfH°(298K)[CH2NH(CH3)(+)] = 710.9±2.8千焦每摩尔(-1)。广泛使用G3、G3B3、CBS - APNO和W1U水平的量子化学计算来支持实验数据。实验和从头算等键反应热之间的比较还表明,ΔfH°(298K)[N(CH3)3] = -27.2±2千焦每摩尔(-1),二甲胺的电离能为8.32±0.03电子伏特,这两者与先前的实验值略有不同。在光子能量高于13电子伏特时,除了氢原子损失外还出现了其他解离通道,例如三甲胺依次损失C2H4,并为此提出了解离机制。

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