The Ambivalent Chemistry of a Free Anionic N‐Heterocyclic Carbene Decorated with a Malonate Backbone: The Plus of a Negative Charge

César, Vincent; Labat, Stéphane; Miqueu, Karinne; Sotiropoulos, Jean‐Marc; Brousses, Rémy; Lugan, Noël; Lavigne, Guy

doi:10.1002/chem.201303184

Cited by 39 publications

(21 citation statements)

References 141 publications

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“…While the phosphorus atoms resonate at δ P = 37.8 and 38.3 ppm in the latter adducts, the signal of the phosphorus atom in compound 2 was found at δ P = 74.8 ppm. Such a lower‐field chemical shift was expected as we previously observed the same downfield shift for the diphenylphosphenium adduct of malo NHC 1· PPh 2 [ δ P = 16.1 ppm] compared to the more classical NHC · PPh 2 adducts [–5 ppm < δ P < –18 ppm] . The very high sensitivity of compound 2 towards moisture precluded its further characterization by mass spectrometry or elemental analysis.…”

Section: Resultssupporting

confidence: 82%

“…It was fully characterized by spectroscopic and analytical techniques. Noteworthy, unlike the corresponding thiourea [ 1 =S] – that was protonated on the sulfur atom, it appeared that the protonation of [ 1 =Se]Li occurred exclusively at the central carbon atom of the malonate unit. Diagnostic signals for this regioselectivity are the quadruplet at δ = 3.78 ppm ascribed to the C 5 ‐ H proton, and the corresponding doublet at δ = 1.84 ppm for the apical methyl group in the 1 H NMR spectrum.…”

Section: Resultsmentioning

confidence: 99%

“…(a) Previously reported insertion of free anionic NHC [ 1 ]Li into various E–H bonds; (b) Calculated Kohn–Sham energy values of the σ and π* molecular orbitals of [ 1 ]M, along with their representation for [ 1 ]Li (calculations made at the B3LYP/6‐31+G** level of theory); (c) malo NHC‐derived carbenes considered in this study.…”

Section: Introductionmentioning

confidence: 99%

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Experimental Assessment of the π‐Acidity of Anionic and Neutral Malonate‐Derived N‐Heterocyclic Carbenes

2017

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The π‐acidity of anionic malonate‐derived N‐heterocyclic carbenes (maloNHC)–, [1]–, has been determined experimentally by recording the 77Se NMR chemical shifts of the corresponding maloNHC·Se adducts. Though anionic in nature, [1]– displays a significant π‐accepting character, which can additionally be fine‐tuned depending on the nature of the counter‐cation. The π‐acidity of neutral maloNHC‐derived carbenes was also assessed by neutralization of the malonate backbone, and it was shown to increase upon O‐methylation, giving rise to the (amino)(acrylamido)carbene 1Me and to increase even more dramatically upon protonation of the central carbon atom, which formally generates the diamidocarbene 1H.

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Section: Resultssupporting

confidence: 82%

Section: Resultsmentioning

confidence: 99%

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Experimental Assessment of the π‐Acidity of Anionic and Neutral Malonate‐Derived N‐Heterocyclic Carbenes

2017

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“…[10] They are also highly efficient nucleophilic organocatalysts. [11] Conversely,a part from the use of NHCs as partners for the activationo fs mall molecules, [12] there are very few examples of synthetic protocols, which occur through the intermediacy of an NHCa so ne of the key reactive substrateso ri ntermediates. In as eminal contribution,C avell and co-workers reported on the decomposition of alkyl-and aryl-NHC-Pd II complexes through reductive elimination to form C2-substituted imidazolium salts and palladium black.…”

Section: Introductionmentioning

confidence: 99%

“…Molecular structure of 5a (ellipsoids are drawn at the 30 %p robability level).H ydrogen atoms and solvent molecule wereo mitted for clarity. Selectedbondlengths []: C12ÀN2 1.3565(14), C12ÀN1 1.3288(14), N2ÀC23 1.3853(14), C23ÀC241 .3909(16),C24ÀC25 1.4130(16), C25ÀC261 .3774(17), C26ÀC271.4255(17),C27ÀC10 1.3792(16),C3ÀC10 1.4321(15),C2ÀC3 1.4411(15), C2ÀC121 .4847(15), C2ÀO1 1.2519(12).…”

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confidence: 99%

N‐Heterocyclic Carbenes as Key Intermediates in the Synthesis of Fused, Mesoionic, Tricyclic Heterocycles

Benaissa

Pallova

Morantin

et al. 2019

Chemistry A European J

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Coupling between 5‐bromoimidazo[1,5‐a]pyridinium salts and malonate or arylacetate esters leads to a facile and straightforward access to the new mesoionic, fused, tricyclic system of imidazo[2,1,5‐cd]indolizinium‐3‐olate. Mechanistic studies show that the reaction pathway consists of nucleophilic aromatic substitution on the cationic, bicyclic heterocycle by an enolate‐type moiety and in the nucleophilic attack of a transient free N‐heterocyclic carbene (NHC) species on the ester group; the relative order of these two steps depends on the nature of the starting ester. This work highlights the valuable implementation of free NHC species as key intermediates in synthetic chemistry, beyond their classical use as stabilizing ligands or organocatalysts.

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Skeleton Decoration of NHCs by Amino Groups and its Sequential Booster Effect on the Palladium‐Catalyzed Buchwald–Hartwig Amination

et al. 2014

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A challenging synthetic modification of PEPPSItype palladium pre-catalysts consisting of a stepwise incorporation of one and two amino groups onto the NHC skeleton was seen to exert a sequential enhancement of the electronic donor properties. This appears to be positively correlated with the catalytic performances of the corresponding complexes in the Buchwald-Hartwig amination. This is illustrated, for example, by the quantitative amination of 4-chloroanisole by morpholine within 2 h at 25 8C with a 2 mol % catalyst/ substrate ratio or by a significant reduction of catalytic loading (down to 0.005 mol %) for the coupling of aryl chlorides with anilines (max TON: 19 600).During the past two decades, N-heterocyclic carbenes (NHCs) have gained considerable significance for the design of a variety of highly efficient transition-metal precatalysts. [1] Their intrinsic interest is both due to their high steric bulk, mainly determined by the nature of the nitrogen substituents, and their strong electronic s-donor properties. These donor properties are dramatically influenced by the nature of the heterocyclic skeleton. [2] Among NHCs, 1,3dimesityl-2H-imidazol-2-ylidene (IMes) and 1,3-bis(2,6-diisopropylphenyl)-2H-imidazol-2-ylidene (IPr) are the most widely employed in homogeneous catalysis. Hence, they represent ideal standard archetypes from which an optimization of stereoelectronic properties can be envisioned. Regarding the sterics, excellent results have been obtained upon formal replacement of the 2,6-diisopropylphenyl (Dipp) nitrogen substituents by bulkier, flexible aryl groups [3] or by C 2 -symmetrical chiral aryl groups. [4] Moreover, modifications of the electronic donor properties by decoration of the imidazolyl skeleton are highly efficient, but often remain subject to synthetic limitations. [5] To date, relevant notable systems studied in catalysis include the quinone-and acenaphthylene-annelated imidazol-2-ylidenes 3 and 4 [6,7] the methyl and chloro-disubstituted carbenes 5, [8] and the boratesubstituted anionic IPr 6 (Scheme 1). [9] In a logical continuation of our work on skeleton functionalization of NHCs, [10] we reasoned that the construction of NHCs 1 a,b and 2 a,b, formally derived from the IMes (a) and IPr (b) ligands by incorporation of one or two dimethylamino groups on the heterocyclic skeleton, [11] would constitute a rational strategy to increase the donor properties of the NHC and to unveil potentially better catalysts. Herein, we disclose for the first time an efficient and reliable synthesis of their imidazolium precursors and provide entry into their coordination chemistry. We also reveal the highly beneficial effect of the addition of skeleton amino groups onto the NHC in the benchmark palladium-catalyzed Buchwald-Hartwig amination.Inspired in part from our earlier approaches to skeletondecorated NHCs, the synthetic strategies employed to access the imidazolium salts [1 a,b·H](OTf) and [2 a,b·H](OTf) both relied on the incorporation of the desired unit directly onto the corresponding...

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The Ambivalent Chemistry of a Free Anionic N‐Heterocyclic Carbene Decorated with a Malonate Backbone: The Plus of a Negative Charge

Cited by 39 publications

References 141 publications

Experimental Assessment of the π‐Acidity of Anionic and Neutral Malonate‐Derived N‐Heterocyclic Carbenes

Experimental Assessment of the π‐Acidity of Anionic and Neutral Malonate‐Derived N‐Heterocyclic Carbenes

N‐Heterocyclic Carbenes as Key Intermediates in the Synthesis of Fused, Mesoionic, Tricyclic Heterocycles

Skeleton Decoration of NHCs by Amino Groups and its Sequential Booster Effect on the Palladium‐Catalyzed Buchwald–Hartwig Amination

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