NF 盐的形成机制及强路易斯酸对氟氧化能力的非凡增强作用。

Formation Mechanism of NF Salts and Extraordinary Enhancement of the Oxidizing Power of Fluorine by Strong Lewis Acids.

机构信息

Loker Hydrocarbon Research Institute and Department of Chemistry, University of Southern California, Los Angeles, CA, 90089-1661, USA.

Department of Chemistry, The University of Alabama, Tuscaloosa, AL, 35487, USA.

出版信息

Angew Chem Int Ed Engl. 2017 Jun 26;56(27):7924-7929. doi: 10.1002/anie.201701784. Epub 2017 May 4.

DOI:10.1002/anie.201701784

PMID:28470992

Abstract

Although the existence of the NF cation has been known for 51 years, and its formation mechanism from NF , F , and a strong Lewis acid in the presence of an activation energy source had been studied extensively, the mechanism had not been established. Experimental evidence had shown that the first step involves the generation of F atoms from F , and also that the NF cation is a key intermediate. However, it was not possible to establish whether the second step involved the reaction of a F atom with either NF or the Lewis acid (LA). To distinguish between these two alternatives, a computational study of the NF , SbF , AsF , and BF radicals was carried out. Whereas the heats of reaction are small and similar for the NF and LAF radicals, at the reaction temperatures, only the LAF radicals possess sufficient thermal stability to be viable species. Most importantly, the ability of the LAF radicals to oxidize NF to NF demonstrates that they are extraordinary oxidizers. This extraordinary enhancement of the oxidizing power of fluorine with strong Lewis acids had previously not been fully recognized.

摘要

虽然 NF 阳离子的存在已经有 51 年了，并且其在激活能源存在的情况下由 NF 、F 和强路易斯酸形成的机制已经被广泛研究，但该机制尚未建立。实验证据表明，第一步涉及从 F 中生成 F 原子，并且 NF 阳离子是关键中间体。然而，无法确定第二步是否涉及 F 原子与 NF 或路易斯酸（LA）的反应。为了区分这两种可能性，对 NF 、SbF 、AsF 和 BF 自由基进行了计算研究。虽然 NF 和 LAF 自由基的反应热很小且相似，但在反应温度下，只有 LAF 自由基具有足够的热稳定性才能成为可行的物质。最重要的是，LAF 自由基将 NF 氧化为 NF 的能力表明它们是极好的氧化剂。这种强路易斯酸对氟的氧化能力的非凡增强以前没有得到充分认识。

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NF 盐的形成机制及强路易斯酸对氟氧化能力的非凡增强作用。

Formation Mechanism of NF Salts and Extraordinary Enhancement of the Oxidizing Power of Fluorine by Strong Lewis Acids.

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