Zhiling Liu, Yonghong Yan, Yufeng Yang, Xiaoyue Yao, Fuqiang Zhang, Jianfeng Jia, Ya Li
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引用次数: 0
摘要
CO 和 CPt 的共轭对分子为 O 原子和铂原子之间的自生孤立关系提供了原型,可以合理解释碳化铂的结构和反应趋势。在此,我们利用光电子速度图成像光谱记录了气相 CPt 在 532 纳米波长处的光电子脱离。尽管 CPt 和 CO 中的三键特征强化了 O 和 Pt 之间的自生孤立关系,但进一步的详细成键比较揭示了三键中的细微差别。CO 的三键包括一个从 O 原子到 C 原子的 σ 供体键和两个退化的 π 电子共享键。相比之下,氯化铂的三键涉及三个共价键,包括一个从 C 原子到铂原子的 σ 供体键和两个从铂原子到 C 原子的退行性 π 反馈键。
Analogy of C-Pt and C-O Chemical Bonding in the Diatomic CPt and CO.
The conjugate-pair molecules of CO and CPt provide a prototype of the autogenic isolobal relationship between the O and Pt atoms that can rationalize the structure and reactivity trends of platinum carbides. Herein, the photoelectron detachment at 532 nm has been recorded for the gas-phase CPt- by using the photoelectron velocity-map imaging spectroscopy. The vibrationally resolved ground-state transition reveals a wealth of information concerning the electronic ground states of CPt0/-1. Although the triple bonding characters in both CPt and CO have fortified the autogenic isolobal relationship between O and Pt, further detailed bonding comparisons have revealed the subtle nuance in the triple bonding. The triple bonds of CO comprise one σ donor bond from the O atom to the C atom and two degenerate π electron-sharing bonds. In contrast, the triple bonds of CPt involve three dative bonds, including one σ donor bond from the C atom to the Pt atom and two degenerate π back-donation bonds from the Pt atom to the C atom.
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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