路易斯酸碱反应中单电子转移的证据。

Evidence for a Single Electron Shift in a Lewis Acid-Base Reaction.

作者信息

Dong Zhaowen, Cramer Hanna H, Schmidtmann Marc, Paul Lucas A, Siewert Inke, Müller Thomas

机构信息

Institute of Chemistry , Carl von Ossietzky University of Oldenburg , Carl von Ossietzky-Str. 9-11 , D-26129 Oldenburg , Federal Republic of Germany, European Union.

Institute of Inorganic Chemistry , Göttingen University , Tammannstr. 4 , D-37077 Göttingen , Federal Republic of Germany, European Union.

出版信息

J Am Chem Soc. 2018 Nov 14;140(45):15419-15424. doi: 10.1021/jacs.8b09214. Epub 2018 Oct 25.

DOI:10.1021/jacs.8b09214

PMID:30359019

Abstract

The Lewis acid-base reaction between a nucleophilic hafnocene-based germylene and tris-pentafluorophenylborane (B(CF)) to give the conventional B-Ge bonded species in almost quantitative yield is reported. This reaction is surprisingly slow, and during its course, radical intermediates are detected by EPR and UV-vis spectroscopy. This suggests that the reaction is initiated by a single electron-transfer step. The hereby-involved germanium radical cation was independently synthesized by oxidation of the germylene by the trityl cation or strong silyl-Lewis acids. A perfluorinated tetraarylborate salt of the radical cation was fully characterized including an XRD analysis. Its structural features and the results of DFT calculations indicate that the radical cation is a hafnium(III)-centered radical that is formed by a redox-induced electron transfer (RIET) from the ligand to the hafnium atom. This valence isomerization slows down the coupling of the radicals to form the polar Lewis acid-base product. The implications of this observation are briefly discussed in light of the recent finding that radical pairs are formed in frustrated Lewis pairs.

摘要

据报道，亲核型茂铪基二锗烯与三（五氟苯基）硼烷（B(CF)）之间发生路易斯酸碱反应，几乎以定量产率生成传统的B-Ge键合物种。该反应出奇地缓慢，在此过程中，通过电子顺磁共振（EPR）和紫外可见光谱检测到了自由基中间体。这表明该反应由单电子转移步骤引发。在此所涉及的锗自由基阳离子是通过三苯甲基阳离子或强硅基路易斯酸氧化二锗烯独立合成的。对该自由基阳离子的全氟代四芳基硼酸盐进行了全面表征，包括X射线衍射（XRD）分析。其结构特征和密度泛函理论（DFT）计算结果表明，该自由基阳离子是以铪（III）为中心的自由基，它是由配体向铪原子的氧化还原诱导电子转移（RIET）形成的。这种价异构化减缓了自由基的偶联，从而形成极性路易斯酸碱产物。鉴于最近发现受阻路易斯对中会形成自由基对，简要讨论了这一观察结果的意义。

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路易斯酸碱反应中单电子转移的证据。

Evidence for a Single Electron Shift in a Lewis Acid-Base Reaction.

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