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Interpreting Oxidative Addition of Ph–X (X= CH3 F Cl and Br) to Monoligated Pd(0) Catalysts Using Molecular ElectrostaticPotential

机译：解释Ph–X（X= CH3FCl和Br）到使用分子静电的单连接Pd（0）催化剂潜在

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A B3LYP density functional theory study on the oxidative addition of halogenobenzenes and toluene to monoligated zerovalent palladium catalysts (Pd–L) has been carried out using the “L” ligands such as phosphines, N-heterocyclic carbenes, alkynes, and alkenes. The electron deficiency of the undercoordinated Pd in Pd–L is quantified in terms of the molecular electrostatic potential at the metal center (VPd), which showed significant variation with respect to the nature of the L ligand. Further, a strong linear correlation between ΔVPd and the activation barrier (Eact) of the reaction is established. The correlation plots between ΔVPd and Eact suggest that a priori prediction on the ability of the palladium complex to undergo oxidative addition is possible from VPd analysis. In general, as the electron-donating nature of ligand increases, the suitability of Pd(0) catalyst to undergo oxidative addition increases. VPd measures the electron-rich/-deficient nature of the metal center and provides a quantitative measure ofthe reactivity of the catalyst. By tuning the VPd value, efficient catalysts can be designed.

机译：B3LYP密度泛函理论研究了使用“ L”配体（例如膦，N-杂环卡宾，炔烃和烯烃）将卤代苯和甲苯氧化加成到单连接的零价钯催化剂（Pd-L）上。 Pd–L中配位不足的Pd的电子缺陷是根据金属中心的分子静电势（VPd）定量的，该分子相对于L配体的性质表现出显着的变化。此外，在ΔVPd和反应的活化势垒（Eact）之间建立了强线性相关性。 ΔVPd与Eact之间的相关图表明，根据VPd分析，可以对钯配合物进行氧化加成的能力进行先验预测。通常，随着配体的供电子性增加，Pd（0）催化剂进行氧化加成的适用性增加。 VPd测量金属中心的富电子/缺乏电子性质，并提供定量的催化剂的反应性。通过调整VPd值，可以设计出有效的催化剂。

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期刊名称 ACS Omega
作者
Bai Amutha Anjali; Cherumuttathu H. Suresh; *;
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年(卷),期 2017(2),8
年度 2017
页码 4196–4206
总页数 11
原文格式 PDF
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专利

1. Interpreting Oxidative Addition of Ph–X (X = CH₃, F, Cl, and Br) to Monoligated Pd(0) Catalysts Using Molecular Electrostatic Potential [J] . Bai Amutha Anjali, Cherumuttathu H. Suresh ACS Omega . 2017,第8期

机译：用分子静电电位解释PH-X（X = CH _{3 / sup>，F，Cl，和Br）的氧化加入PP-X（X = CH _{，F，Cl，和Br）}}
2. Reactions of tris(oxazolinyl)phenylborato rhodium(I) with C-X (X = Cl, Br, OTf) Bonds: Stereoselective intermolecular oxidative addition [J] . Ho H.-A., Dunne J.F., Ellern A., Organometallics . 2010,第18期

机译：三（恶唑啉基）苯基硼酸铑（I）与C-X（X = Cl，Br，OTf）键的反应：立体选择性分子间氧化加成
3. Enantioselective Intermolecular Addition of Aliphatic Amines to Acyclic Dienes with a Pd-PHOX Catalyst [J] . Nathan J. Adamson, Ethan Hull, Steven J. Malcolmson Journal of the American Chemical Society . 2017,第21期

机译：用Pd-PHOX催化剂将脂族胺对映选择性分子间加成到无环二烯上
4. Effect of non-noble and noble metal addition to Pd catalysts on formic acid oxidation [C] . Yuki Motoishi, Junichiro Kugai 日本化学会春季年会講演予稿集 . 2018

机译：PD催化剂对甲酸氧化的非贵瓦和贵金属的影响
5. I. Multicatalysis: Development of a Bismuth(III) triflate-catalyzed Nucleophilic addition/ Hydrofunctionalization Reaction in the Synthesis of Complex Heterocycles II. C--H Arylation of Arenes and Heteroarenes with Palladium-Carboxylate Catalysts: Identification of the Catalyst Resting State and the Crucial Role of Pivalate Ligand in Stabilization of the Catalyst III. C--H Arylation of Heteroarenes with Palladium-Carboxylate Catalysts: Importance of Phosphine Ligand for Basic Heteroarene Substrates IV. C--H Arylation of Heteroarenes with Palladium-Carboxylate Catalysts: Effect of the Properties of Basic Heteroarene Substrates on Direct Arylations. [D] . Tundel, Rachel E. 2011

机译：I.多催化作用：在复杂的杂环化合物的合成中三氟甲磺酸铋（III）催化的亲核加成/加氢官能化反应的发展。羰基钯催化剂对芳烃和杂芳烃的CH-H芳基化反应：催化剂静止状态的鉴定以及新戊酸酯配体在稳定催化剂中的关键作用III。羰基钯催化剂催化杂芳烃的CH芳基化：膦配体对基础杂芳烃基质的重要性IV。杂芳烃与钯-羧酸酯的CH芳基化：碱性杂芳烃底物性能对直接芳基化的影响。
6. Enantioselective Intermolecular Addition of Aliphatic Amines to Acyclic Dienes with a Pd–PHOX Catalyst [O] . Nathan J. Adamson, Ethan Hull, Steven J. Malcolmson -1

机译：Pd-PHOX催化剂将脂族胺对映选择性分子间加成到无环二烯上
7. Interpreting Oxidative Addition of Ph–X (X = CH3, F, Cl, and Br) to Monoligated Pd(0) Catalysts Using Molecular Electrostatic Potential [O] . Bai Amutha Anjali, Cherumuttathu H. Suresh 2017

机译：解释使用分子静电势将ph-X（X = CH3，F，Cl和Br）氧化加成到单一的pd（0）催化剂上
8. Linked and Mercury-Bridged Nido-Carboranes. High-Yield Synthesis of mu, mu' - ((CH3)2C2B4H5)2Hg, Conversion to 5,5'-((CH3)2C2B4H5)2, Cleavage, and Oxidative Addition of Benzene. Synthesis of mu, mu'-(B5H8)2Hg. [R] . Hosmane, N. S., Grimes, R. N. 1979

机译：链接和水星桥接的Nido-Carboranes。高产量合成mu，mu' - （（CH3）2C2B4H5）2Hg，转化为5,5' - （（CH3）2C2B4H5）2，裂解和苯的氧化加成。 mu，mu' - （B5H8）2Hg的合成。

Interpreting Oxidative Addition of Ph–X (X= CH3 F Cl and Br) to Monoligated Pd(0) Catalysts Using Molecular ElectrostaticPotential

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