A Pd（II）→Pd(0)→Pd（II）催化循环生成双（o-碳硼烷）s：通过再现产率和比率、区域选择性、加性和取代基效应证实

IF 4.3 2区化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR

Inorganic Chemistry Pub Date : 2025-06-03 DOI:10.1021/acs.inorgchem.5c00652

Wei-Hua Mu, Lin Zhu, Jia-Wei Yu, Xue Zhao, Liangfei Duan, Ke Cao, Guo Liu

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引用次数: 0

摘要

利用密度泛函理论（DFT）研究了钯催化区域选择性B-B偶联生成邻碳硼烷的反应。结果表明，该反应经过连续的区域选择性B4 -H活化、B4 ' -H /B5 ' -H活化和还原消除，最终生成双（o-碳硼烷）s。钯催化剂倾向于经历Pd（II） →Pd(0) →Pd（II）而不是Pd（II） →Pd（IV） →Pd（II）催化循环，其中第二次B-H （B4′-H /B5′-H）活化是决定速率的步骤（RDS）。计算得到的RDS步骤的激活势垒（27.0/29.0 kcal·mol-1, TS2a_I/TS2a ' _I）与实验产率和选择性（P1a:P2a = 57%:23%）吻合良好。区域选择性主要受B-H （B4′-H /B5′-H）二次活化过程控制，电子效应起关键作用，空间位阻也有一定影响，自然键轨道（NBO）和非共价相互作用（NCI）分析证实了这一点。AgOAc/AgF/NiCl2-co-assisted （Path a_I）、AgOAc/AgF-co-assisted （Path a_II）和AgOAc-assisted （Path a_III）病例计算的决定速率的自由能势垒（27.0/29.6/31.1 kcal·mol-1）与相应的实验趋势完全一致（分别获得57%/43%/12%的P1a）。取代基效应的理论预测也证明了与实验观察的一致性。实验和计算之间的完美一致验证了Pd（II） →Pd(0) →Pd（II）循环，为邻碳硼烷的B-B偶联提供了重要的见解，从而有助于功能碳硼烷材料的可控合成。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

A Pd(II) → Pd(0) → Pd(II) Catalytic Cycle Enables the Generation of Bis(o-carborane)s: Confirmed by Reproduced Yields and Ratios, Regioselectivities, Additive and Substituent Effects

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A Pd(II) → Pd(0) → Pd(II) Catalytic Cycle Enables the Generation of Bis(o-carborane)s: Confirmed by Reproduced Yields and Ratios, Regioselectivities, Additive and Substituent Effects

The palladium-catalyzed generation of bis(o-carborane)s via regioselective B–B coupling was explored by using density functional theory (DFT). It is found that the reaction proceeds through sequential regioselective B4–H activation, B4′–H/B5′–H activation, and reductive elimination, yielding bis(o-carborane)s ultimately. The palladium catalyst tends to experience a Pd(II) → Pd(0) → Pd(II) rather than Pd(II) → Pd(IV) → Pd(II) catalytic cycle, in which the second B–H (B4′–H/B5′–H) activation serves as the rate-determining step (RDS). Computed RDS step’s activation barriers (27.0/29.0 kcal·mol^–1, TS2a_I/TS2a′_I) consist well with experimental yields and selectivities (P1a:P2a = 57%:23%). The regioselectivity is primarily controlled by the second B–H (B4′–H/B5′–H) activation process, with the electronic effect playing a key role and steric hindrance influencing somewhat, as confirmed by the natural bond orbital (NBO) and noncovalent interaction (NCI) analyses. Computed rate-determining free-energy barriers (27.0/29.6/31.1 kcal·mol^–1) for the AgOAc/AgF/NiCl₂-co-assisted (Path a_I), AgOAc/AgF-co-assisted (Path a_II), and AgOAc-assisted (Path a_III) cases agree perfectly with corresponding experimental trends (obtained 57%/43%/12% of P1a, respectively). Theoretical predictions of substituent effects also demonstrate consistency with experimental observations. This perfect agreement between experiments and computations validates the Pd(II) → Pd(0) → Pd(II) cycle, providing crucial insights into the B–B coupling of o-carboranes and thus aiding the controllable synthesis of functional carborane materials.

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来源期刊

Inorganic Chemistry 化学-无机化学与核化学

CiteScore

7.60

自引率

13.00%

发文量

1960

审稿时长

1.9 months

期刊介绍： Inorganic Chemistry publishes fundamental studies in all phases of inorganic chemistry. Coverage includes experimental and theoretical reports on quantitative studies of structure and thermodynamics, kinetics, mechanisms of inorganic reactions, bioinorganic chemistry, and relevant aspects of organometallic chemistry, solid-state phenomena, and chemical bonding theory. Emphasis is placed on the synthesis, structure, thermodynamics, reactivity, spectroscopy, and bonding properties of significant new and known compounds.