Bond-Dissociation Energies to Probe Pyridine Electronic Effects on Organogold(III) Complexes: From Methodological Developments to Application in π-Backdonation Investigation and Catalysis

Bourehil, Lyna; Soep, Clément; Seng, Sopheak; Dutrannoy, Sarah; Igoudjil, Stacy; Forté, Jérémy; Gontard, Geoffrey; Lesage, Denis; Bertrand, Benoît; Dossmann, Héloïse

doi:10.1021/acs.inorgchem.3c01584

Inorg. Chem.

2023

DOI: 10.1021/acs.inorgchem.3c01584

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Bond-Dissociation Energies to Probe Pyridine Electronic Effects on Organogold(III) Complexes: From Methodological Developments to Application in π-Backdonation Investigation and Catalysis

Lyna Bourehil,

Clément Soep,

Sopheak Seng

et al.

Abstract: In this work, we report on the synthesis of several organogold(III) complexes based on 4,4′-diterbutylbiphenyl (C^C) and 2,6-bis(4-terbutylphenyl)pyridine (C^N^C) ligands and bond with variously substituted pyridine ligands (pyrR). Altogether, 33 complexes have been prepared and studied with mass spectrometry using higher-energy collision dissociation (HCD) in an Orbitrap mass spectrometer. A complete methodology including the kinetic modeling of the dissociation process based on the Rice− Ramsperger−Kassel−Ma… Show more

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2024

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Cited by 5 publications

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Synthesis of Iron(IV) Alkynylide Complexes and Their Reactivity to Form 1,3‐Diynes

Souilah,

Jannuzzi,

Becker

et al. 2024

Angewandte Chemie

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The isolation of thermally unstable and highly reactive organoiron(IV) complexes is a challenge for synthetic chemists. In particular, the number of examples where the C‐based ligand is not part of the chelating ligand remains scarce. These compounds are of interest because they could pave the way to designing catalytic cycles of bond forming reactions proceeding via organoiron(IV) intermediates. Herein, we report the synthesis and characterization, including single‐crystal X‐ray diffraction, of a family of alkynylferrates(III) and Fe(IV) alkynylide complexes. The alkynylferrates(III) are formed by transmetalation of the Fe(III) precursor [(N3N’)FeIII] (N3N’ is tris(N‐tert‐butyldimethylsilyl‐2‐amidoethyl)amine)) with lithium alkynylides, and their further one‐electron oxidation enables the synthesis of the corresponding Fe(IV) alkynylides. The electronic structure of this family of organometallic Fe(III) and Fe(IV) complexes has been thoroughly investigated by spectroscopic methods (EPR, NMR, 57Fe Mössbauer, X‐Ray absorption (XAS) and emission (XES) spectroscopies) and theoretical calculations. While alkynylferrates(III) are sluggish to engage into C–C bond forming processes, the Fe(IV) alkynylides react to afford 1,3‐diynes at room temperature. A bimolecular reductive elimination from a bimetallic iron(IV) intermediate to form the 1,3‐diynes is proposed based on the mechanistic investigations performed.

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Synthesis of Iron(IV) Alkynylide Complexes and Their Reactivity to Form 1,3‐Diynes

Souilah,

Jannuzzi,

Becker

et al. 2024

Angewandte Chemie

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show abstract

Synthesis of Iron(IV) Alkynylide Complexes and Their Reactivity to Form 1,3‐Diynes

Souilah,

Jannuzzi,

Becker

et al. 2024

Angew Chem Int Ed

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Correlation Between NMR Coupling Constants and σ‐Donating Properties of N‐Heterocyclic Carbenes and Their Derivatives

Gupta,

Frison

2024

Chemistry A European J

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Is the 1JC‐H coupling constant for protonated carbene a relevant measure of its σ‐donation ability? This paper addresses this question by comparing calculated 1JC‐H values with various experimental and theoretical approaches across a broad spectrum of carbene compounds. We examined Arduengo‐type NHCs based on the 2‐imidazolylidene scaffold and many other derivatives with modified frameworks, including carbenes with extended, saturated, or conjugated rings, reduced heteroatom stabilization, alternative heteroatoms, permanently charged carbenes, acyclic carbenes, amidocarbenes, and cyclic amino(alkyl/aryl) carbenes, carbodicarbenes and carbodiphosphoranes. Our findings reveal a nuanced relationship between different parameters associated with σ‐interaction, such as 1JC‐H, Huynh electronic parameter (HEP), σ‐donation from ETS‐NOCV, and lone pair energy. Notably, the best correlation was observed between 1JC‐H and the ETS‐NOCV method, particularly for mono‐ and diaminocarbenes, highlighting the utility of 1JC‐H in comparing σ‐donation among structurally similar carbene types. However, the use of 1JC‐H as a universal measure across all carbene classes appears limited, especially when considering carbenes with significantly different structural frameworks. While HEP is less effective for carbenes with diverse structural backbones, our study suggests that 1JC‐H has potential across a broader range of systems. Additionally, the analysis demonstrates that lone pair energy reflects basicity rather than σ‐donor ability.

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Bond-Dissociation Energies to Probe Pyridine Electronic Effects on Organogold(III) Complexes: From Methodological Developments to Application in π-Backdonation Investigation and Catalysis

Cited by 5 publications

References 67 publications

Synthesis of Iron(IV) Alkynylide Complexes and Their Reactivity to Form 1,3‐Diynes

Synthesis of Iron(IV) Alkynylide Complexes and Their Reactivity to Form 1,3‐Diynes

Synthesis of Iron(IV) Alkynylide Complexes and Their Reactivity to Form 1,3‐Diynes

Correlation Between NMR Coupling Constants and σ‐Donating Properties of N‐Heterocyclic Carbenes and Their Derivatives

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