C–H Bond Activation by Transition Metal Complexes

A special issue of Inorganics (ISSN 2304-6740). This special issue belongs to the section "Organometallic Chemistry".

Deadline for manuscript submissions: 31 March 2025 | Viewed by 2773

Special Issue Editor


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Guest Editor
Department of Chemistry, Faculty of Sciences, National University of Colombia, Bogotá, Colombia
Interests: computational catalysis; computational organometallic chemistry; surface science; computational organic chemistry

Special Issue Information

Dear Colleagues,

C–H activation processes are ubiquitous in hydrocarbon chemistry and organic synthesis since they enable the production of more useful and interesting molecules to many applications. The term “C–H activation” is associated with the cleavage of the low-reactive C–H bonds in hydrocarbons (mostly alkanes, arenes) by transition metal complexes, whose d orbitals may interact with the C–H σ and σ* orbitals, enabling electron donation and back-donation. This electronic interplay may ultimately weaken the C–H bond to its scission. The work by Chatt using Ru(0) to activate the C–H bond of naphthalene and the H/D exchange between methane and benzene with heavy water using Pt(II) catalyst by Shilov were the first examples of successful C–H bond activation using transition metals in the 1960s. Later on, Shilov demonstrated C–H functionalization in methane by selective oxidation to methanol using Pt(II) and Pt(IV). The next discovery of alkane C–H activation reactions via Co(III), Pt(IV), Pd(II), Ru(IV), Ir(III), and Ti(IV) metal complexes in the 1970s paved the way to the development of most robust transition metal organometallic catalysts. In the search for these systems, challenging aspects like efficiency and selectivity have played a critical role. Depending on the metal and ligands involved in the catalyst, different mechanistic scenarios have been proposed over the years, such as oxidative addition/reductive elimination, 1,2-addition, electrophilic substitution, and σ-bond metathesis. Significant effort has been made in recent years in the field of organometallic chemistry to decipher true operative mechanisms that can lead to a more rational catalyst design for C–H activation in hydrocarbons.

In this Special Issue of Inorganics, I would like to invite you to contribute with the most recent advances in C–H bond activation using transition metal complexes through research articles and reviews that cover fundamental aspects such as new reactions, catalyst development, and mechanistic insights. Contributions from both experimental and computational approaches are equally welcome.

Prof. Dr. Francisco Núñez-Zarur
Guest Editor

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Keywords

  • C–H activation
  • transition metal complex
  • catalyst development
  • reaction mechanism
  • computational chemistry
  • oxidative addition

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Published Papers (1 paper)

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Review

33 pages, 7728 KiB  
Review
C–H Activation via Group 8–10 Pincer Complexes: A Mechanistic Approach
by Juan S. Serrano-García, Andrés Amaya-Flórez, Jordi R.-Galindo, Lucero González-Sebastián, Luis Humberto Delgado-Rangel and David Morales-Morales
Inorganics 2024, 12(8), 221; https://doi.org/10.3390/inorganics12080221 - 15 Aug 2024
Viewed by 1292
Abstract
C–H bond activation is a crucial synthetic strategy widely utilized in both academic and industrial settings. Due to the strong and kinetically inert nature of the C–H bond, its functionalization typically requires metal-based catalysts. This review highlights the most significant advancements in homogeneously [...] Read more.
C–H bond activation is a crucial synthetic strategy widely utilized in both academic and industrial settings. Due to the strong and kinetically inert nature of the C–H bond, its functionalization typically requires metal-based catalysts. This review highlights the most significant advancements in homogeneously catalyzed reactions using pincer complexes with metals from groups 8–10, capable of promoting challenging C–H activation, published since 2010. In particular, it focuses on C–H bond activation for borylation, isomerization, and dehydrogenation, among other processes, discussing their scope and mechanistic insights. Full article
(This article belongs to the Special Issue C–H Bond Activation by Transition Metal Complexes)
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