Tetrel Bonding along the Pathways of Transsilylation and Alkylation of N-Trimethylsilyl-N-methylacetamide with Bifunctional (Chloromethyl)fluorosilanes

Chipanina Nina N.; Lazareva Nataliya F.; Oznobikhina Larisa P.; Shainyan Bagrat A.

首页> 外文期刊>The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory >Tetrel Bonding along the Pathways of Transsilylation and Alkylation of N-Trimethylsilyl-N-methylacetamide with Bifunctional (Chloromethyl)fluorosilanes

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Tetrel Bonding along the Pathways of Transsilylation and Alkylation of N-Trimethylsilyl-N-methylacetamide with Bifunctional (Chloromethyl)fluorosilanes

机译：沿着转甲醇甲甲烷化的途径和N-三甲基甲硅烷基-N-甲基乙酰胺的致硅烷化的衔接与双官能（氯甲基）氟硅烷粘接

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A quantum chemical study has been carried out on the complexes formed in the first stage of the reaction of (chloromethyl)-trifluorosilane with an ambident nucleophile, N-trimethylsilyl-N-methylacetamide, existing in the amide and imidate tautomeric forms. The analysis of molecular electrostatic potential maps of the electrophile molecule revealed the presence of two sigma-holes belonging to the Si and C atoms. Each of the two tautomers of the nucleophile form complexes having O center dot center dot center dot Si, O center dot center dot center dot C, N center dot center dot center dot Si, and N center dot center dot center dot C bonds of different characters. The natural bond orbital and quantum theory of atoms in molecules analyses showed the presence of the O center dot center dot center dot Si and O center dot center dot center dot C tetrel bonds or of electrostatic interaction in the complexes with the amide tautomer, depending on the orientation of the components. The imidate tautomer forms a complex with covalent N-Si bond, whereas the N center dot center dot center dot C bond is very weak. The effect of silicon atom arrangement on the structure of complexes between N-trimethylsilyl-N-methylacetamide and bifunctional silanes ClCH2SiXnF3-n (X = Me, OMe, Cl, n = 1, 2) and the effect of sigma-hole tetrel bonding interactions on the reaction pathways are discussed.

机译：已经在（氯甲基） - 三氟硅烷反应的第一阶段的复合物上进行了量子化学研究，其具有酰胺和酰亚胺互变异构形式存在于酰胺的亲核试核官中的第一个（氯甲基） - 三氟硅烷的第一级N-三甲基甲硅烷基-N-甲基乙酰胺。电泳分子的分子静电势图分析显示了属于Si和C原子的两个σ孔的存在。核官能官能团中的两个互联网复合体中的每一个都有O中心点中心点中心点SI，O中心点中心点中心点C，N中心点中心点中心点SI，N中心点中心点中心点C键不同人物。分子中的天然键轨道和量子原子的分析显示，显示了O中心点中心点中心点Si和O中心点中心点COT C Tetrel Cold或与酰胺互变异构体的络合物中的静电相互作用，具体取决于组件的方向。酰亚胺互变异构成具有共价N-Si键的复合物，而N中心点中心点中心点C键非常弱。硅原子布置对N-三甲基甲硅烷基 - N-甲基乙酰胺和双官能硅烷之间的络合物结构的影响CLCH2SIXNF3-N（X = ME，OME，CL，N = 1,2）以及Sigma-Hole Tetrel键合相互作用的效果讨论了反应途径。

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《The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory》 |2019年第24期|共12页
作者
Chipanina Nina N.; Lazareva Nataliya F.; Oznobikhina Larisa P.; Shainyan Bagrat A.;
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Russian Acad Sci Siberian Div AE Favorsky Irkutsk Inst Chem 1 Favorsky St Irkutsk 664033 Russia;

Russian Acad Sci Siberian Div AE Favorsky Irkutsk Inst Chem 1 Favorsky St Irkutsk 664033 Russia;

Russian Acad Sci Siberian Div AE Favorsky Irkutsk Inst Chem 1 Favorsky St Irkutsk 664033 Russia;

Russian Acad Sci Siberian Div AE Favorsky Irkutsk Inst Chem 1 Favorsky St Irkutsk 664033 Russia;

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中图分类物理化学（理论化学）、化学物理学;
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1. Tetrel Bonding along the Pathways of Transsilylation and Alkylation of N-Trimethylsilyl-N-methylacetamide with Bifunctional (Chloromethyl)fluorosilanes [J] . Chipanina Nina N., Lazareva Nataliya F., Oznobikhina Larisa P., The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2019,第24期

机译：沿着转甲醇甲甲烷化的途径和N-三甲基甲硅烷基-N-甲基乙酰胺的致硅烷化的衔接与双官能（氯甲基）氟硅烷粘接
2. Transsilylation of O-trimethylsilyl derivatives of alpha-dimethylaminoketones by chloro(chloromethyl)dimethylsilane [J] . Gostevskii Boris A., Albanov Alexander I., Vashchenko Alexander V., Journal of Organometallic Chemistry . 2018,第期

机译：氯（氯甲基）二甲基硅烷α-二甲基氨基酮的O-三甲基甲硅烷基衍生物的转甲醇甲甲烷基
3. Structural and Electronic Flexibility in Hydrides of Zintl Phases with Tetrel-Hydrogen and Tetrel-Tetrel Bonds [J] . Auer Henry, Schlegel Robert, Oeckler Oliver, Angewandte Chemie . 2017,第40期

机译：用四氢和四边形键合的Zintl相的氢化物中的结构和电子柔韧性
4. Understanding the Lithiation Pathways of Tetrel Clathrates with Synchrotron X-Ray Characterization [C] . Andrew Dopilka, Amanda Childs, Alexander Ovchinnikov, Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

机译：了解TETREL CLASHRATES的锂电图途径，具有同步X射线特征
5. Hydrodesulfurization on Transition Metal Catalysts: Elementary Steps of C-S Bond Activation and Consequences of Bifunctional Synergies. [D] . Yik, Edwin Shyn-Lo. 2015

机译：过渡金属催化剂上的加氢脱硫：C-S键活化的基本步骤和双功能协同作用的结果。
6. Nucleophilicities of Lewis Bases B and Electrophilicities of Lewis Acids A Determined from the Dissociation Energies of Complexes B⋯A Involving Hydrogen Bonds Tetrel Bonds Pnictogen Bonds Chalcogen Bonds and Halogen Bonds [O] . Ibon Alkorta, Anthony C. Legon 2017

机译：Lewis碱B的亲核性和Lewis酸A的亲电性由涉及氢键Tetrel键Pnictogen键硫属元素键和卤素键的配合物B⋯A的解离能确定
7. Structural and Electronic Flexibility in Hydrides of Zintl Phases with Tetrel-Hydrogen and Tetrel-Tetrel Bonds [O] . Henry Auer, Robert Schlegel, Oliver Oeckler, 2017

机译：用四氢和四边形键的Zintl相氢化物中的结构和电子灵活性

Tetrel Bonding along the Pathways of Transsilylation and Alkylation of N-Trimethylsilyl-N-methylacetamide with Bifunctional (Chloromethyl)fluorosilanes

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