与二磷酸碳烷配位的亚锡的合成和氧化还原催化作用

IF 18.1 1区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Nature Communications Pub Date : 2024-11-14 DOI:10.1038/s41467-024-54321-y
Zhuchunguang Liu, Zhijun Wang, Huan Mu, Yihan Zhou, Jiliang Zhou, Zhaowen Dong
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摘要

较重的第 14 组碳烯类似物具有类似过渡金属的行为,在小分子活化和配位化学方面表现出卓越的能力。然而,它们在氧化还原催化中的应用仍然遥遥无期。在本文中,我们报告了一种含碳二磷烷配体的链烯的合成和分离。通过计算和反应研究阐明了二价锡中心的亲核反应性。此外,这种锡在氟烯烃的氢氟化反应中表现出催化活性。对基本步骤的机理研究证实了 SnII/SnIV 氧化还原循环,其中涉及 C-F 氧化加成、F/H 配体偏析和 C-H 还原消除。这种低价 SnII 催化系统类似于经典的过渡金属催化。值得注意的是,这代表了利用碳烯类似物与较重的第 14 族元素作为催化剂的拟金属氧化还原催化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Synthesis and redox catalysis of Carbodiphosphorane ligated stannylene

Heavier group 14 carbene analogues, exhibiting transition-metal-like behavior, display remarkable capability for small molecule activation and coordination chemistry. However, their application in redox catalysis remains elusive. In this paper, we report the synthesis and isolation of a stannylene with carbodiphosphorane ligand. The nucleophilic reactivity at the divalent tin center is elucidated by computational and reactivity studies. Moreover, this stannylene exhibits catalytic activity in the hydrodefluorination reaction of fluoroarenes. Mechanistic investigations into the elementary steps confirm a SnII/SnIV redox cycle involving C–F oxidative addition, F/H ligand metathesis, and C–H reductive elimination. This low-valent SnII catalytic system resembles the classical transition metal catalysis. Notably, this represents metallomimetic redox catalysis utilizing carbene analogue with heavier group 14 element as a catalyst.

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来源期刊
Nature Communications
Nature Communications Biological Science Disciplines-
CiteScore
24.90
自引率
2.40%
发文量
6928
审稿时长
3.7 months
期刊介绍: Nature Communications, an open-access journal, publishes high-quality research spanning all areas of the natural sciences. Papers featured in the journal showcase significant advances relevant to specialists in each respective field. With a 2-year impact factor of 16.6 (2022) and a median time of 8 days from submission to the first editorial decision, Nature Communications is committed to rapid dissemination of research findings. As a multidisciplinary journal, it welcomes contributions from biological, health, physical, chemical, Earth, social, mathematical, applied, and engineering sciences, aiming to highlight important breakthroughs within each domain.
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