化学中氧化态的上限。

On the Upper Limits of Oxidation States in Chemistry.

机构信息

Key Laboratory of Organic Optoelectronics & Molecular Engineering of the Ministry of Education, Department of Chemistry, Tsinghua University, Beijing, 100084, China.

Beijing Computer Science Research Center, Haidian, Beijing, 100193, China.

出版信息

Angew Chem Int Ed Engl. 2018 Mar 12;57(12):3242-3245. doi: 10.1002/anie.201711450. Epub 2018 Feb 19.

DOI:10.1002/anie.201711450

PMID:29314484

Abstract

The concept of oxidation state (OS) is based on the concept of Lewis electron pairs, in which the bonding electrons are assigned to the more electronegative element. This approach is useful for keeping track of the electrons, predicting chemical trends, and guiding syntheses. Experimental and quantum-chemical results reveal a limit near +8 for the highest OS in stable neutral chemical substances under ambient conditions. OS=+9 was observed for the isolated [IrO ] cation in vacuum. The prediction of OS=+10 for isolated [PtO ] cations is confirmed computationally for low temperatures only, but hasn't yet been experimentally verified. For high OS species, oxidation of the ligands, for example, of O with formation of O and O-O bonds, and partial reduction of the metal center may be favorable, possibly leading to non-Lewis type structures.

摘要

氧化态（OS）的概念基于路易斯电子对的概念，其中成键电子被分配给电负性更大的元素。这种方法对于跟踪电子、预测化学趋势和指导合成非常有用。实验和量子化学结果表明，在环境条件下稳定中性化学物质中，最高 OS 接近+8。在真空中观察到孤立的[IrO]阳离子的 OS=+9。仅在低温下通过计算证实了预测的孤立[PtO]阳离子的 OS=+10，但尚未通过实验验证。对于高 OS 物种，配体的氧化，例如 O 与形成 O 和 O-O 键，以及金属中心的部分还原可能是有利的，可能导致非路易斯类型的结构。

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化学中氧化态的上限。

On the Upper Limits of Oxidation States in Chemistry.

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