Catalytic Gold Chemistry: From Simple Salts to Complexes for Regioselective C−H Bond Functionalization

Praveen, Chandrasekar; Dupeux, Aurélien; Michelet, Véronique

doi:10.1002/chem.202100785

Cited by 24 publications

(14 citation statements)

References 340 publications

(472 reference statements)

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“…The vital importance in organic synthesis of sustainable synthetic methodologies has led to the development of numerous synthetic strategies for C–H functionalization reactions that have higher efficiency and minimal chemical waste . Despite remarkable advances, C–H bond functionalization reactions are still highly changeling for synthetic organic transformations . As a consequence of the prevalence of the quinoline scaffold in a large variety of pharmacologically active compounds, in naturally occurring products as well as materials, dyes, and chemosensors, the development of more sustainable and practical synthetic methodologies of this derivative remains a significant goal .…”

Section: Introductionmentioning

confidence: 99%

Direct Regioselective Hydro(hetero)arylation/Cyclocondensation Reactions of β-(2-Aminophenyl)-α,β-ynones by Means of Transition-Metal Catalysis/Brønsted Acid Synergism: Experimental Results and Computational Insights

et al. 2023

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Experimental results and computational insights explain the key role of transition-metal catalysis/Brønsted acid synergism in the achievement of the sequential regioselective direct heteroarylation/ cyclocondensation reactions of β-(2-aminophenyl)-α,β-ynones with a variety of electron-rich aromatic heterocyclic/arenes to afford quinoline-(hetero)aromatic hybrids. The first approach to the synthesis of 4-(1Hpyrrol-2-yl)quinolines is described. The effectiveness of various transition metals is compared.

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Section: Introductionmentioning

confidence: 99%

Direct Regioselective Hydro(hetero)arylation/Cyclocondensation Reactions of β-(2-Aminophenyl)-α,β-ynones by Means of Transition-Metal Catalysis/Brønsted Acid Synergism: Experimental Results and Computational Insights

et al. 2023

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“…The main achievements in gold-catalyzed CÀ H functionalization reactions have been already summarized in few reviews. [51,52,[83][84][85][86][87][88][89] However, a review that solely focuses on the developments in the field of enantioselective CÀ H functionalization reactions under gold catalysis is missing by far.…”

Section: Introduction 1gold-catalyzed Cà H Functionalization Reactionsmentioning

confidence: 99%

“…Interestingly, gold‐catalyzed C−H functionalization reactions often provide complementary chemo‐ and regioselectivities as compared to other transition metal‐catalyzed processes, [82] and therefore recently started gaining significant attention from organic and organometallic chemistry community. The main achievements in gold‐catalyzed C−H functionalization reactions have been already summarized in few reviews [51,52,83–89] . However, a review that solely focuses on the developments in the field of enantioselective C−H functionalization reactions under gold catalysis is missing by far.…”

Section: Introductionmentioning

confidence: 99%

Enantioselective C−H Functionalization Reactions under Gold Catalysis

Patil

Das

2022

Chemistry A European J

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Transition metal-catalyzed enantioselective functionalization of ubiquitous CÀ H bonds has proven to be promising field as it offers the construction of chiral molecular complexity in a step-and atom-economical manner. In recent years, gold has emerged as an attractive contender for catalyzing such reactions. The unique reactivities and selectivities offered by gold catalysts have been exploited to access numerous asymmetric transformations based on gold-catalyzed CÀ H functionalization processes. Herein, this review critically highlights the major advances and discoveries made in the enantioselective CÀ H functionalization under gold catalysis which is accompanied by mechanistic insights at appropriate places.

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“…3,4 The origin of these interactions is said to be mainly dispersion, but other mechanisms like electrostatic multipole interactions or induction also contribute. 5−9 The strength of aurophilic interactions is often compared with that of hydrogen bonds; 10 thus, aurophilicity plays a crucial role in the structural, 1,11 photophysical, 3,12,13 and catalytic 14,15 chemistry of gold complexes. In general, dinuclear gold(I) complexes are described as either unsupported, semi-supported, or fully supported (Scheme 1) depending on the number of involved linking ligands (0−2).…”

Section: ■ Introductionmentioning

confidence: 99%

“…Aurophilicity as a concept was introduced for attractive interactions between gold atoms in the oxidation state +I with typical Au–Au distances between 2.50 and 3.50 Å. , Later, the concept was further developed, and the term metallophilic attraction was coined to include interactions between metal atoms in the d 8 , d 10 , and s 2 states. , The origin of these interactions is said to be mainly dispersion, but other mechanisms like electrostatic multipole interactions or induction also contribute. − The strength of aurophilic interactions is often compared with that of hydrogen bonds; thus, aurophilicity plays a crucial role in the structural, , photophysical, ,, and catalytic , chemistry of gold complexes. In general, dinuclear gold(I) complexes are described as either unsupported, semi-supported, or fully supported (Scheme ) depending on the number of involved linking ligands (0–2) .…”

Section: Introductionmentioning

confidence: 99%

Noncovalent Synergy: Aurophilicity and Aryl Stacking in Bis(gold(I)aryl)-dmpm Complexes

et al. 2022

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Bis(dimethylphosphino)methane (dmpm) was used as a ligand to synthesize four semi-supported dinuclear gold(I) complexes, dmpm(AuR) 2 (R = Cl, C 6 H 5 , C 6 Cl 5 , and C 6 F 5 ), which were studied concerning the synergistic effects of two weak noncovalent interactions: aurophilic and aryl−aryl stacking interactions. The chloro-substituted complex was synthesized by the ligand substitution of (tht)AuCl with dmpm and further functionalized by the reaction with PhMgBr or in situ-generated C 6 Cl 5 Li to afford the phenyl-and pentachlorophenyl-substituted compounds, respectively. The pentafluorophenyl-substituted gold complex was generated by the ligand substitution of (tht)Au(C 6 F 5 ) with dmpm. All complexes were characterized by multinuclear NMR spectroscopy, CHN analyses, and X-ray diffraction experiments. Additionally, the basic photoluminescence properties of dmpm(AuCl) 2 , dmpm(AuC 6 Cl 5 ) 2 , and dmpm(AuC 6 F 5 ) 2 were examined. The aggregation behavior of dmpm(AuC 6 F 5 ) 2 was further investigated by variable-temperature diffusion-ordered NMR spectroscopy experiments.

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Catalytic Gold Chemistry: From Simple Salts to Complexes for Regioselective C−H Bond Functionalization

Cited by 24 publications

References 340 publications

Direct Regioselective Hydro(hetero)arylation/Cyclocondensation Reactions of β-(2-Aminophenyl)-α,β-ynones by Means of Transition-Metal Catalysis/Brønsted Acid Synergism: Experimental Results and Computational Insights

Direct Regioselective Hydro(hetero)arylation/Cyclocondensation Reactions of β-(2-Aminophenyl)-α,β-ynones by Means of Transition-Metal Catalysis/Brønsted Acid Synergism: Experimental Results and Computational Insights

Enantioselective C−H Functionalization Reactions under Gold Catalysis

Noncovalent Synergy: Aurophilicity and Aryl Stacking in Bis(gold(I)aryl)-dmpm Complexes

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