Lewis Base and Metal Cation-Assisted Isomerization of Disilyne

IF 2.5 3区 化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR
Huaiyu Zhang*, Xinyu Li, Qingrui Lu, Jinshuai Song, Yandong Duan, Yanli Zeng* and Yirong Mo*, 
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Abstract

We computationally explored the influence of two Lewis bases (N-heterocyclic carbene (NHC) and trimethylphosphine (PMe3) and four metal cations (Li+, Na+, K+, and Mg2+) used in experiments on the isomerizations of disilyne Si2Ph2 (Ph = C6H5) and Si2Tip2 (Tip = 2,4,6-iPr3C6H2) in this work. Computations demonstrated that kinetically, both NHC and PMe3 increase the energy barriers and thus stabilize disilavinylidene. Thermodynamically, however, NHC can reduce the energy gap between disilyne and disilavinylidene, while PMe3 stabilizes disilavinylidene or slightly influences the relative stability. Further analyses showed that it is polarization that governs the energy barriers and gaps. When metal cations are further introduced, they tend to adopt the end-on bonding mode and cooperate with Lewis bases via a push–pull effect. The electrostatic interaction between Mg2+ and NHC-stabilized disilyne can even improve the relative stability of disilyne. Therefore, the synergy between NHC and Mg2+ can help the preparation of disilyne if the energy barrier from Lewis base-stabilized disilavinylidene to disilyne is overcome, but to obtain disilavinylidene, it might be better to use phosphine alone without metal cations.

Abstract Image

路易斯碱和金属阳离子辅助的二硅烷烃异构化反应
我们通过计算探索了本研究中两种路易斯碱(N-杂环碳(NHC)和三甲基膦(PMe3))和四种金属阳离子(Li+、Na+、K+ 和 Mg2+)对二硅烷 Si2Ph2(Ph = C6H5)和 Si2Tip2(Tip = 2,4,6-iPr3C6H2)异构化实验的影响。计算结果表明,从动力学角度看,NHC 和 PMe3 都会增加能垒,从而稳定亚二硅烷。然而,从热力学角度来看,NHC 可以减小二硅烷基和二硅烷基之间的能隙,而 PMe3 则可以稳定二硅烷基或稍微影响其相对稳定性。进一步的分析表明,是极化决定了能障和能隙。当进一步引入金属阳离子时,它们倾向于采用端对键模式,并通过推拉效应与路易斯碱合作。Mg2+ 与 NHC 稳定的二硅烷烃之间的静电作用甚至可以提高二硅烷烃的相对稳定性。因此,如果能克服从路易斯碱稳定的二硅烷基到二硅烷基的能量障碍,NHC 和 Mg2+ 之间的协同作用将有助于二硅烷基的制备,但要获得二硅烷基,最好还是单独使用膦而不使用金属阳离子。
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来源期刊
Organometallics
Organometallics 化学-无机化学与核化学
CiteScore
5.60
自引率
7.10%
发文量
382
审稿时长
1.7 months
期刊介绍: Organometallics is the flagship journal of organometallic chemistry and records progress in one of the most active fields of science, bridging organic and inorganic chemistry. The journal publishes Articles, Communications, Reviews, and Tutorials (instructional overviews) that depict research on the synthesis, structure, bonding, chemical reactivity, and reaction mechanisms for a variety of applications, including catalyst design and catalytic processes; main-group, transition-metal, and lanthanide and actinide metal chemistry; synthetic aspects of polymer science and materials science; and bioorganometallic chemistry.
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